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Acta Cryst. (2007). B63, 819-827
https://doi.org/10.1107/S0108768107049385
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Equilibrium langbeinite-related phosphates Cs1 + xLnxZr2 - x(PO4)3 (Ln = Sm-Lu) in the melted systems Cs2O-P2O5-LnF3-ZrF4

I. V. Ogorodnyk, V. N. Baumer, I. V. Zatovsky, N. S. Slobodyanik, O. V. Shishkin and K. V. Domasevitch
Nine novel phosphates, based upon a combination of caesium, zirconium and lanthanide ions, were obtained from fluoride-containing fluxes using high-temperature crystallization. The structures of Cs1.80Eu0.80Zr1.20(PO4)3 (CsEuZrP), Cs1.79Gd0.79Zr1.21(PO4)3 (CsGdZrP), Cs1.87Tb0.87Zr1.13(PO4)3 (CsTbZrP), Cs1.67Dy0.67Zr1.33(PO4)3 (CsDyZrP), Cs1.75Ho0.75Zr1.25(PO4)3 (CsHoZrP), Cs1.78Er0.78Zr1.22(PO4)3 (CsErZrP), Cs1.70Tm0.70Zr1.30(PO4)3 (CsTmZrP), Cs1.52Yb0.52Zr1.48(PO4)3 (CsYbZrP) and Cs1.63Lu0.63Zr1.37(PO4)3 (CsLuZrP) were solved using single-crystal X-ray diffraction. All compounds are isostructural to the mineral langbeinite (cubic system, space group P213). Their framework structures originate from the cross-linking of metal octahedra [MO6] (M = Zr, Ln) by phosphate tetrahedra. Cs+ cations are located in the closed cavities of the framework and preferentially occupy one of the two available sites. The principles of crystallization of the equilibrium langbeinite-related phosphates in the fluxes of the system Cs2O-P2O5-LnF3-ZrF4 (Ln = La-Nd, Sm-Lu) are discussed based on their crystal structures.
Keywords: langbeinite-related phosphates; flux technique; high-temperature crystallization.
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Supporting information

cif

Crystallographic Information File (CIF) https://doi.org/10.1107/S0108768107049385/sx5073sup1.cif
Contains datablocks global, CsEuZrP, CsGdZrP, CsTbZrP, CsDyZrP, CsHoZrP, CsErZrP, CsTmZrP, CsYbZrP, CsLuZrP

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S0108768107049385/sx5073CsEuZrPsup2.hkl
Contains datablock CsEuZrP

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S0108768107049385/sx5073CsGdZrPsup3.hkl
Contains datablock CsGdZrP

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S0108768107049385/sx5073CsTbZrPsup4.hkl
Contains datablock CsTbZrP

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S0108768107049385/sx5073CsDyZrPsup5.hkl
Contains datablock CsDyZrP

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S0108768107049385/sx5073CsHoZrPsup6.hkl
Contains datablock CsHoZrP

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S0108768107049385/sx5073CsErZrPsup7.hkl
Contains datablock CsErZrP

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S0108768107049385/sx5073CsTmZrPsup8.hkl
Contains datablock CsTmZrP

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S0108768107049385/sx5073CsYbZrPsup9.hkl
Contains datablock CsYbZrP

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S0108768107049385/sx5073CsLuZrPsup10.hkl
Contains datablock CsLuZrP

pdf

Portable Document Format (PDF) file https://doi.org/10.1107/S0108768107049385/sx5073sup11.pdf
Supplementary figures

Comment top

# Insert blank lines between paragraphs ?

Computing details top

For all compounds, data collection: CrysAlis CCD (Oxford Diffraction Ltd., 2005); cell refinement: CrysAlis CCD (Oxford Diffraction Ltd., 2005); data reduction: CrysAlis RED (Oxford Diffraction Ltd., 2005); program(s) used to solve structure: SHELXS97 (Sheldrick, 1997); program(s) used to refine structure: SHELXL97 (Sheldrick, 1997); molecular graphics: DIAMOND (Brandenburg, 2006); software used to prepare material for publication: WinGX publication routines (Farrugia, 1999).

Figures top
[Figure 1]
[Figure 2]
[Figure 3]
[Figure 4]
Figure 1. View of (I) (50% probability displacement ellipsoids)
(CsEuZrP) top
Crystal data top
Eu0.805O12P3Zr1.195·0.994(Cs)·0.812(Cs)Dx = 4.344 Mg m3
Mr = 756.34Mo Kα radiation, λ = 0.71073 Å
Cubic, P213Cell parameters from 7245 reflections
Hall symbol: P 2ac 2ab 3θ = 2.7–30.0°
a = 10.4969 (1) ŵ = 11.48 mm1
V = 1156.60 (2) Å3T = 293 K
Z = 4Tetrahedron, colourless
F(000) = 1355.50.07 × 0.06 × 0.04 mm
Data collection top
XCalibur-3
diffractometer		1137 independent reflections
Radiation source: fine focus sealed tube1094 reflections with I > 2σ(I)
Graphite monochromatorRint = 0.031
ϕ and ω scansθmax = 30.0°, θmin = 2.7°
Absorption correction: multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		h = 1414
Tmin = 0.415, Tmax = 0.542k = 1414
7245 measured reflectionsl = 1414
Refinement top
Refinement on F2Secondary atom site location: difference Fourier map
Least-squares matrix: full w = 1/[σ2(Fo2) + (0.0095P)2 + 1.2265P]
where P = (Fo2 + 2Fc2)/3
R[F2 > 2σ(F2)] = 0.017(Δ/σ)max = 0.001
wR(F2) = 0.029Δρmax = 0.47 e Å3
S = 1.17Δρmin = 0.62 e Å3
1137 reflectionsExtinction correction: SHELXL, Fc*=kFc[1+0.001xFc2λ3/sin(2θ)]-1/4
65 parametersExtinction coefficient: 0.00046 (9)
3 restraintsAbsolute structure: Flack H D (1983), Acta Cryst. A39, 876-881
Primary atom site location: structure-invariant direct methodsAbsolute structure parameter: 0.01 (2)
Crystal data top
Eu0.805O12P3Zr1.195·0.994(Cs)·0.812(Cs)Z = 4
Mr = 756.34Mo Kα radiation
Cubic, P213µ = 11.48 mm1
a = 10.4969 (1) ÅT = 293 K
V = 1156.60 (2) Å30.07 × 0.06 × 0.04 mm
Data collection top
XCalibur-3
diffractometer		1137 independent reflections
Absorption correction: multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		1094 reflections with I > 2σ(I)
Tmin = 0.415, Tmax = 0.542Rint = 0.031
7245 measured reflections
Refinement top
R[F2 > 2σ(F2)] = 0.0173 restraints
wR(F2) = 0.029Δρmax = 0.47 e Å3
S = 1.17Δρmin = 0.62 e Å3
1137 reflectionsAbsolute structure: Flack H D (1983), Acta Cryst. A39, 876-881
65 parametersAbsolute structure parameter: 0.01 (2)
Special details top

Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell e.s.d.'s are taken into account individually in the estimation of e.s.d.'s in distances, angles and torsion angles; correlations between e.s.d.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s. planes.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
Cs10.71056 (2)0.71056 (2)0.71056 (2)0.02015 (12)0.994 (2)
Cs20.92912 (2)0.92912 (2)0.92912 (2)0.01497 (14)0.8121 (19)
Zr10.14570 (2)0.14570 (2)0.14570 (2)0.00911 (10)0.703 (3)
Zr20.414970 (19)0.414970 (19)0.414970 (19)0.00858 (9)0.4909 (9)
Eu10.14570 (2)0.14570 (2)0.14570 (2)0.00911 (10)0.297 (3)
Eu20.414970 (19)0.414970 (19)0.414970 (19)0.00858 (9)0.5090 (9)
P10.45975 (8)0.23262 (9)0.12317 (8)0.01207 (18)
O10.3180 (2)0.2320 (3)0.0851 (3)0.0221 (6)
O20.5376 (3)0.2949 (3)0.0165 (3)0.0255 (6)
O30.5074 (3)0.0970 (3)0.1447 (3)0.0238 (6)
O40.4781 (3)0.3111 (3)0.2448 (3)0.0237 (6)
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Cs10.02015 (12)0.02015 (12)0.02015 (12)0.00139 (9)0.00139 (9)0.00139 (9)
Cs20.01497 (14)0.01497 (14)0.01497 (14)0.00112 (9)0.00112 (9)0.00112 (9)
Zr10.00911 (10)0.00911 (10)0.00911 (10)0.00114 (9)0.00114 (9)0.00114 (9)
Zr20.00858 (9)0.00858 (9)0.00858 (9)0.00052 (8)0.00052 (8)0.00052 (8)
Eu10.00911 (10)0.00911 (10)0.00911 (10)0.00114 (9)0.00114 (9)0.00114 (9)
Eu20.00858 (9)0.00858 (9)0.00858 (9)0.00052 (8)0.00052 (8)0.00052 (8)
P10.0121 (4)0.0147 (4)0.0095 (4)0.0004 (3)0.0005 (3)0.0001 (3)
O10.0179 (13)0.0299 (14)0.0184 (13)0.0029 (10)0.0074 (10)0.0029 (12)
O20.0343 (17)0.0215 (14)0.0207 (14)0.0019 (12)0.0141 (12)0.0019 (12)
O30.0242 (14)0.0214 (14)0.0257 (14)0.0048 (11)0.0003 (12)0.0050 (11)
O40.0225 (14)0.0305 (16)0.0183 (13)0.0048 (11)0.0002 (11)0.0064 (11)
Geometric parameters (Å, º) top
Cs1—O1i3.127 (3)Zr2—O3i2.169 (3)
Cs1—O1ii3.127 (3)Zr2—O3ii2.169 (3)
Cs1—O1iii3.127 (3)Zr2—O3iii2.169 (3)
Cs1—O4iv3.295 (3)Zr2—O4xi2.196 (3)
Cs1—O4v3.295 (3)Zr2—O42.196 (3)
Cs1—O4vi3.295 (3)Zr2—O4x2.196 (3)
Cs1—O2iv3.338 (3)Zr2—Cs2xix3.9682 (2)
Cs1—O2v3.338 (3)Zr2—Cs2xx3.9682 (2)
Cs1—O2vi3.338 (3)Zr2—Cs2xxi3.9682 (2)
Cs1—P1iv3.6295 (9)Zr2—Cs1xix4.6681 (3)
Cs1—P1v3.6295 (9)Zr2—Cs1xxi4.6681 (3)
Cs1—P1vi3.6295 (9)Zr2—Cs1xx4.6681 (3)
Cs2—O3iv3.071 (3)P1—O31.526 (3)
Cs2—O3v3.071 (3)P1—O41.531 (3)
Cs2—O3vi3.071 (3)P1—O21.533 (3)
Cs2—O2vii3.165 (3)P1—O11.540 (3)
Cs2—O2viii3.165 (3)P1—Cs2xxi3.6072 (10)
Cs2—O2ix3.165 (3)P1—Cs1xx3.6295 (9)
Cs2—O4ix3.322 (3)P1—Cs2xx3.8154 (9)
Cs2—O4vii3.322 (3)P1—Cs1xviii3.9398 (9)
Cs2—O4viii3.322 (3)O1—Cs1xviii3.127 (3)
Cs2—O4iv3.324 (3)O1—Cs2xxi3.747 (3)
Cs2—O4v3.324 (3)O2—Eu1xxii2.139 (3)
Cs2—O4vi3.324 (3)O2—Zr1xxii2.139 (3)
Zr1—O1x2.120 (3)O2—Cs2xxi3.165 (3)
Zr1—O1xi2.120 (3)O2—Cs1xx3.338 (3)
Zr1—O12.120 (3)O2—Cs1xviii3.640 (3)
Zr1—O2xii2.139 (3)O3—Eu2xviii2.169 (3)
Zr1—O2xiii2.139 (3)O3—Zr2xviii2.169 (3)
Zr1—O2xiv2.139 (3)O3—Cs2xx3.071 (3)
Zr1—Cs2xv3.9376 (6)O3—Cs1xx3.650 (3)
Zr1—Cs1xvi4.0896 (2)O4—Cs1xx3.295 (3)
Zr1—Cs1xvii4.0896 (2)O4—Cs2xxi3.322 (3)
Zr1—Cs1xviii4.0896 (2)O4—Cs2xx3.324 (3)
O1i—Cs1—O1ii89.02 (7)O1—Zr1—Cs1xvi132.26 (7)
O1i—Cs1—O1iii89.02 (7)O2xii—Zr1—Cs1xvi54.51 (8)
O1ii—Cs1—O1iii89.02 (7)O2xiii—Zr1—Cs1xvi130.43 (8)
O1i—Cs1—O4iv102.02 (7)O2xiv—Zr1—Cs1xvi62.60 (8)
O1ii—Cs1—O4iv82.58 (7)Cs2xv—Zr1—Cs1xvi77.360 (6)
O1iii—Cs1—O4iv165.94 (7)O1x—Zr1—Cs1xvii48.71 (7)
O1i—Cs1—O4v82.58 (7)O1xi—Zr1—Cs1xvii132.26 (7)
O1ii—Cs1—O4v165.94 (7)O1—Zr1—Cs1xvii111.04 (7)
O1iii—Cs1—O4v102.02 (7)O2xii—Zr1—Cs1xvii62.60 (8)
O4iv—Cs1—O4v88.15 (7)O2xiii—Zr1—Cs1xvii54.51 (8)
O1i—Cs1—O4vi165.94 (7)O2xiv—Zr1—Cs1xvii130.43 (8)
O1ii—Cs1—O4vi102.02 (7)Cs2xv—Zr1—Cs1xvii77.360 (6)
O1iii—Cs1—O4vi82.58 (7)Cs1xvi—Zr1—Cs1xvii115.352 (4)
O4iv—Cs1—O4vi88.15 (7)O1x—Zr1—Cs1xviii132.26 (7)
O4v—Cs1—O4vi88.15 (7)O1xi—Zr1—Cs1xviii111.04 (7)
O1i—Cs1—O2iv58.08 (6)O1—Zr1—Cs1xviii48.71 (7)
O1ii—Cs1—O2iv82.38 (7)O2xii—Zr1—Cs1xviii130.43 (8)
O1iii—Cs1—O2iv145.94 (7)O2xiii—Zr1—Cs1xviii62.60 (8)
O4iv—Cs1—O2iv43.94 (7)O2xiv—Zr1—Cs1xviii54.51 (8)
O4v—Cs1—O2iv83.61 (7)Cs2xv—Zr1—Cs1xviii77.360 (6)
O4vi—Cs1—O2iv131.43 (7)Cs1xvi—Zr1—Cs1xviii115.352 (4)
O1i—Cs1—O2v82.38 (7)Cs1xvii—Zr1—Cs1xviii115.352 (4)
O1ii—Cs1—O2v145.94 (7)O3i—Zr2—O3ii91.83 (11)
O1iii—Cs1—O2v58.08 (6)O3i—Zr2—O3iii91.83 (11)
O4iv—Cs1—O2v131.43 (7)O3ii—Zr2—O3iii91.83 (11)
O4v—Cs1—O2v43.94 (7)O3i—Zr2—O4xi95.11 (10)
O4vi—Cs1—O2v83.61 (7)O3ii—Zr2—O4xi84.04 (10)
O2iv—Cs1—O2v119.110 (16)O3iii—Zr2—O4xi172.03 (10)
O1i—Cs1—O2vi145.94 (7)O3i—Zr2—O4172.03 (10)
O1ii—Cs1—O2vi58.08 (6)O3ii—Zr2—O495.11 (10)
O1iii—Cs1—O2vi82.38 (7)O3iii—Zr2—O484.04 (10)
O4iv—Cs1—O2vi83.61 (7)O4xi—Zr2—O489.52 (10)
O4v—Cs1—O2vi131.43 (7)O3i—Zr2—O4x84.04 (10)
O4vi—Cs1—O2vi43.94 (7)O3ii—Zr2—O4x172.03 (10)
O2iv—Cs1—O2vi119.110 (16)O3iii—Zr2—O4x95.11 (10)
O2v—Cs1—O2vi119.110 (16)O4xi—Zr2—O4x89.52 (10)
O1i—Cs1—P1iv80.14 (5)O4—Zr2—O4x89.52 (10)
O1ii—Cs1—P1iv94.04 (5)O3i—Zr2—Cs2xix50.21 (8)
O1iii—Cs1—P1iv168.68 (5)O3ii—Zr2—Cs2xix115.34 (7)
O4iv—Cs1—P1iv24.95 (5)O3iii—Zr2—Cs2xix131.11 (7)
O4v—Cs1—P1iv73.49 (5)O4xi—Zr2—Cs2xix56.83 (8)
O4vi—Cs1—P1iv107.36 (5)O4—Zr2—Cs2xix128.98 (7)
O2iv—Cs1—P1iv24.97 (5)O4x—Zr2—Cs2xix56.89 (8)
O2v—Cs1—P1iv116.58 (5)O3i—Zr2—Cs2xx115.34 (7)
O2vi—Cs1—P1iv108.47 (5)O3ii—Zr2—Cs2xx131.11 (7)
O1i—Cs1—P1v94.04 (5)O3iii—Zr2—Cs2xx50.20 (8)
O1ii—Cs1—P1v168.68 (5)O4xi—Zr2—Cs2xx128.98 (7)
O1iii—Cs1—P1v80.14 (5)O4—Zr2—Cs2xx56.89 (8)
O4iv—Cs1—P1v107.36 (5)O4x—Zr2—Cs2xx56.83 (8)
O4v—Cs1—P1v24.95 (5)Cs2xix—Zr2—Cs2xx113.206 (4)
O4vi—Cs1—P1v73.49 (5)O3i—Zr2—Cs2xxi131.11 (7)
O2iv—Cs1—P1v108.47 (5)O3ii—Zr2—Cs2xxi50.20 (8)
O2v—Cs1—P1v24.97 (5)O3iii—Zr2—Cs2xxi115.34 (7)
O2vi—Cs1—P1v116.58 (5)O4xi—Zr2—Cs2xxi56.89 (8)
P1iv—Cs1—P1v97.23 (2)O4—Zr2—Cs2xxi56.83 (8)
O1i—Cs1—P1vi168.68 (5)O4x—Zr2—Cs2xxi128.98 (7)
O1ii—Cs1—P1vi80.14 (5)Cs2xix—Zr2—Cs2xxi113.206 (4)
O1iii—Cs1—P1vi94.04 (5)Cs2xx—Zr2—Cs2xxi113.206 (4)
O4iv—Cs1—P1vi73.49 (5)O3i—Zr2—Cs1xix49.43 (7)
O4v—Cs1—P1vi107.36 (5)O3ii—Zr2—Cs1xix138.93 (8)
O4vi—Cs1—P1vi24.95 (5)O3iii—Zr2—Cs1xix78.44 (8)
O2iv—Cs1—P1vi116.58 (5)O4xi—Zr2—Cs1xix109.11 (8)
O2v—Cs1—P1vi108.47 (5)O4—Zr2—Cs1xix122.83 (8)
O2vi—Cs1—P1vi24.97 (5)O4x—Zr2—Cs1xix39.78 (7)
P1iv—Cs1—P1vi97.23 (2)Cs2xix—Zr2—Cs1xix54.055 (8)
P1v—Cs1—P1vi97.23 (2)Cs2xx—Zr2—Cs1xix70.520 (7)
O3iv—Cs2—O3v98.25 (7)Cs2xxi—Zr2—Cs1xix165.147 (8)
O3iv—Cs2—O3vi98.25 (7)O3i—Zr2—Cs1xxi78.44 (8)
O3v—Cs2—O3vi98.25 (7)O3ii—Zr2—Cs1xxi49.43 (7)
O3iv—Cs2—O2vii151.98 (7)O3iii—Zr2—Cs1xxi138.93 (8)
O3v—Cs2—O2vii100.32 (7)O4xi—Zr2—Cs1xxi39.78 (7)
O3vi—Cs2—O2vii99.63 (7)O4—Zr2—Cs1xxi109.11 (8)
O3iv—Cs2—O2viii99.63 (7)O4x—Zr2—Cs1xxi122.83 (8)
O3v—Cs2—O2viii151.98 (7)Cs2xix—Zr2—Cs1xxi70.520 (7)
O3vi—Cs2—O2viii100.32 (7)Cs2xx—Zr2—Cs1xxi165.147 (8)
O2vii—Cs2—O2viii55.98 (8)Cs2xxi—Zr2—Cs1xxi54.055 (8)
O3iv—Cs2—O2ix100.32 (7)Cs1xix—Zr2—Cs1xxi119.6690 (10)
O3v—Cs2—O2ix99.63 (7)O3i—Zr2—Cs1xx138.93 (8)
O3vi—Cs2—O2ix151.98 (7)O3ii—Zr2—Cs1xx78.44 (8)
O2vii—Cs2—O2ix55.98 (8)O3iii—Zr2—Cs1xx49.43 (7)
O2viii—Cs2—O2ix55.98 (8)O4xi—Zr2—Cs1xx122.83 (8)
O3iv—Cs2—O4ix60.36 (7)O4—Zr2—Cs1xx39.78 (7)
O3v—Cs2—O4ix85.61 (7)O4x—Zr2—Cs1xx109.11 (8)
O3vi—Cs2—O4ix158.61 (7)Cs2xix—Zr2—Cs1xx165.147 (8)
O2vii—Cs2—O4ix100.35 (7)Cs2xx—Zr2—Cs1xx54.055 (8)
O2viii—Cs2—O4ix84.70 (7)Cs2xxi—Zr2—Cs1xx70.520 (7)
O2ix—Cs2—O4ix44.92 (7)Cs1xix—Zr2—Cs1xx119.6690 (10)
O3iv—Cs2—O4vii158.61 (7)Cs1xxi—Zr2—Cs1xx119.6690 (10)
O3v—Cs2—O4vii60.36 (7)O3—P1—O4109.70 (17)
O3vi—Cs2—O4vii85.61 (7)O3—P1—O2109.36 (16)
O2vii—Cs2—O4vii44.92 (7)O4—P1—O2108.21 (16)
O2viii—Cs2—O4vii100.35 (7)O3—P1—O1110.54 (15)
O2ix—Cs2—O4vii84.70 (7)O4—P1—O1109.89 (15)
O4ix—Cs2—O4vii114.15 (4)O2—P1—O1109.10 (17)
O3iv—Cs2—O4viii85.61 (7)O3—P1—Cs2xxi165.98 (11)
O3v—Cs2—O4viii158.61 (7)O4—P1—Cs2xxi66.97 (11)
O3vi—Cs2—O4viii60.36 (7)O2—P1—Cs2xxi61.08 (11)
O2vii—Cs2—O4viii84.70 (7)O1—P1—Cs2xxi83.04 (11)
O2viii—Cs2—O4viii44.92 (7)O3—P1—Cs1xx78.66 (11)
O2ix—Cs2—O4viii100.35 (7)O4—P1—Cs1xx65.21 (11)
O4ix—Cs2—O4viii114.15 (4)O2—P1—Cs1xx66.82 (12)
O4vii—Cs2—O4viii114.15 (4)O1—P1—Cs1xx170.80 (11)
O3iv—Cs2—O4iv45.80 (7)Cs2xxi—P1—Cs1xx87.80 (2)
O3v—Cs2—O4iv113.41 (7)O3—P1—Cs2xx50.20 (12)
O3vi—Cs2—O4iv54.21 (7)O4—P1—Cs2xx59.94 (12)
O2vii—Cs2—O4iv138.85 (8)O2—P1—Cs2xx129.94 (12)
O2viii—Cs2—O4iv94.49 (7)O1—P1—Cs2xx120.76 (11)
O2ix—Cs2—O4iv133.95 (7)Cs2xxi—P1—Cs2xx126.40 (2)
O4ix—Cs2—O4iv104.919 (8)Cs1xx—P1—Cs2xx64.461 (17)
O4vii—Cs2—O4iv139.15 (5)O3—P1—Cs1xviii103.04 (12)
O4viii—Cs2—O4iv55.46 (9)O4—P1—Cs1xviii146.10 (12)
O3iv—Cs2—O4v54.21 (7)O2—P1—Cs1xviii67.49 (12)
O3v—Cs2—O4v45.80 (7)O1—P1—Cs1xviii48.01 (11)
O3vi—Cs2—O4v113.41 (7)Cs2xxi—P1—Cs1xviii83.228 (18)
O2vii—Cs2—O4v133.95 (7)Cs1xx—P1—Cs1xviii131.84 (2)
O2viii—Cs2—O4v138.85 (8)Cs2xx—P1—Cs1xviii149.43 (3)
O2ix—Cs2—O4v94.49 (7)P1—O1—Zr1138.43 (17)
O4ix—Cs2—O4v55.46 (9)P1—O1—Cs1xviii110.51 (14)
O4vii—Cs2—O4v104.919 (8)Zr1—O1—Cs1xviii100.66 (9)
O4viii—Cs2—O4v139.15 (5)P1—O1—Cs2xxi72.88 (11)
O4iv—Cs2—O4v87.19 (7)Zr1—O1—Cs2xxi133.07 (10)
O3iv—Cs2—O4vi113.41 (7)Cs1xviii—O1—Cs2xxi93.35 (7)
O3v—Cs2—O4vi54.21 (7)P1—O2—Eu1xxii171.40 (18)
O3vi—Cs2—O4vi45.80 (7)P1—O2—Zr1xxii171.40 (18)
O2vii—Cs2—O4vi94.49 (7)P1—O2—Cs2xxi93.83 (12)
O2viii—Cs2—O4vi133.95 (7)Eu1xxii—O2—Cs2xxi93.88 (10)
O2ix—Cs2—O4vi138.85 (8)Zr1xxii—O2—Cs2xxi93.88 (10)
O4ix—Cs2—O4vi139.15 (5)P1—O2—Cs1xx88.21 (13)
O4vii—Cs2—O4vi55.46 (9)Eu1xxii—O2—Cs1xx94.05 (10)
O4viii—Cs2—O4vi104.919 (8)Zr1xxii—O2—Cs1xx94.05 (10)
O4iv—Cs2—O4vi87.19 (7)Cs2xxi—O2—Cs1xx100.98 (8)
O4v—Cs2—O4vi87.19 (7)P1—O2—Cs1xviii89.61 (12)
O1x—Zr1—O1xi91.11 (10)Eu1xxii—O2—Cs1xviii85.96 (9)
O1x—Zr1—O191.11 (10)Zr1xxii—O2—Cs1xviii85.96 (9)
O1xi—Zr1—O191.11 (10)Cs2xxi—O2—Cs1xviii94.78 (8)
O1x—Zr1—O2xii86.11 (10)Cs1xx—O2—Cs1xviii164.19 (9)
O1xi—Zr1—O2xii95.14 (10)P1—O3—Eu2xviii154.44 (19)
O1—Zr1—O2xii173.20 (11)P1—O3—Zr2xviii154.44 (19)
O1x—Zr1—O2xiii95.14 (10)P1—O3—Cs2xx107.36 (14)
O1xi—Zr1—O2xiii173.20 (11)Eu2xviii—O3—Cs2xx96.93 (9)
O1—Zr1—O2xiii86.11 (10)Zr2xviii—O3—Cs2xx96.93 (9)
O2xii—Zr1—O2xiii87.96 (11)P1—O3—Cs1xx77.14 (11)
O1x—Zr1—O2xiv173.20 (11)Eu2xviii—O3—Cs1xx103.74 (9)
O1xi—Zr1—O2xiv86.11 (10)Zr2xviii—O3—Cs1xx103.74 (9)
O1—Zr1—O2xiv95.14 (10)Cs2xx—O3—Cs1xx71.90 (6)
O2xii—Zr1—O2xiv87.96 (11)P1—O4—Zr2155.14 (17)
O2xiii—Zr1—O2xiv87.96 (11)P1—O4—Cs1xx89.84 (12)
O1x—Zr1—Cs2xv124.47 (7)Zr2—O4—Cs1xx114.98 (9)
O1xi—Zr1—Cs2xv124.47 (7)P1—O4—Cs2xxi87.93 (12)
O1—Zr1—Cs2xv124.47 (7)Zr2—O4—Cs2xxi89.57 (9)
O2xii—Zr1—Cs2xv53.30 (8)Cs1xx—O4—Cs2xxi98.65 (7)
O2xiii—Zr1—Cs2xv53.30 (8)P1—O4—Cs2xx96.57 (13)
O2xiv—Zr1—Cs2xv53.30 (8)Zr2—O4—Cs2xx89.51 (9)
O1x—Zr1—Cs1xvi111.04 (7)Cs1xx—O4—Cs2xx73.79 (6)
O1xi—Zr1—Cs1xvi48.71 (7)Cs2xxi—O4—Cs2xx171.11 (9)
Symmetry codes: (i) z+1/2, x+1, y+1/2; (ii) x+1, y+1/2, z+1/2; (iii) y+1/2, z+1/2, x+1; (iv) z+1/2, x+3/2, y+1; (v) y+1, z+1/2, x+3/2; (vi) x+3/2, y+1, z+1/2; (vii) y+3/2, z+1, x+1/2; (viii) x+1/2, y+3/2, z+1; (ix) z+1, x+1/2, y+3/2; (x) y, z, x; (xi) z, x, y; (xii) z, x1/2, y+1/2; (xiii) y+1/2, z, x1/2; (xiv) x1/2, y+1/2, z; (xv) x1, y1, z1; (xvi) x+1/2, y+1, z1/2; (xvii) x1/2, y+1/2, z+1; (xviii) x+1, y1/2, z+1/2; (xix) x+1, y1/2, z+3/2; (xx) x+3/2, y+1, z1/2; (xxi) x1/2, y+3/2, z+1; (xxii) x+1/2, y+1/2, z.
(CsGdZrP) top
Crystal data top
Gd0.793O12P3Zr1.207·1.01(Cs)·0.783(Cs)Dx = 4.379 Mg m3
Mr = 757.86Mo Kα radiation, λ = 0.71073 Å
Cubic, P213Cell parameters from 13339 reflections
Hall symbol: P 2ac 2ab 3θ = 2.8–30.0°
a = 10.4752 (5) ŵ = 11.70 mm1
V = 1149.44 (10) Å3T = 293 K
Z = 4Tetrahedron, colourless
F(000) = 1354.30.08 × 0.07 × 0.05 mm
Data collection top
XCalibur-3
diffractometer		1127 independent reflections
Radiation source: fine focus sealed tube1125 reflections with I > 2σ(I)
Graphite monochromatorRint = 0.033
ϕ and ω scansθmax = 30.0°, θmin = 2.8°
Absorption correction: multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		h = 1414
Tmin = 0.463, Tmax = 0.600k = 1414
13339 measured reflectionsl = 1414
Refinement top
Refinement on F2Secondary atom site location: difference Fourier map
Least-squares matrix: full w = 1/[σ2(Fo2) + (0.009P)2 + 1.6865P]
where P = (Fo2 + 2Fc2)/3
R[F2 > 2σ(F2)] = 0.012(Δ/σ)max = 0.001
wR(F2) = 0.029Δρmax = 0.56 e Å3
S = 1.37Δρmin = 0.45 e Å3
1127 reflectionsExtinction correction: SHELXL, Fc*=kFc[1+0.001xFc2λ3/sin(2θ)]-1/4
65 parametersExtinction coefficient: 0.00044 (9)
3 restraintsAbsolute structure: Flack H D (1983), Acta Cryst. A39, 876-881
Primary atom site location: structure-invariant direct methodsAbsolute structure parameter: 0.012 (19)
Crystal data top
Gd0.793O12P3Zr1.207·1.01(Cs)·0.783(Cs)Z = 4
Mr = 757.86Mo Kα radiation
Cubic, P213µ = 11.70 mm1
a = 10.4752 (5) ÅT = 293 K
V = 1149.44 (10) Å30.08 × 0.07 × 0.05 mm
Data collection top
XCalibur-3
diffractometer		1127 independent reflections
Absorption correction: multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		1125 reflections with I > 2σ(I)
Tmin = 0.463, Tmax = 0.600Rint = 0.033
13339 measured reflections
Refinement top
R[F2 > 2σ(F2)] = 0.0123 restraints
wR(F2) = 0.029Δρmax = 0.56 e Å3
S = 1.37Δρmin = 0.45 e Å3
1127 reflectionsAbsolute structure: Flack H D (1983), Acta Cryst. A39, 876-881
65 parametersAbsolute structure parameter: 0.012 (19)
Special details top

Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell e.s.d.'s are taken into account individually in the estimation of e.s.d.'s in distances, angles and torsion angles; correlations between e.s.d.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s. planes.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
Cs10.71132 (2)0.71132 (2)0.71132 (2)0.02028 (10)1.010 (2)
Cs20.92899 (2)0.92899 (2)0.92899 (2)0.01446 (12)0.7830 (18)
Zr10.14508 (2)0.14508 (2)0.14508 (2)0.00934 (9)0.703 (2)
Zr20.414724 (17)0.414724 (17)0.414724 (17)0.00866 (8)0.5040 (9)
Gd10.14508 (2)0.14508 (2)0.14508 (2)0.00934 (9)0.296 (2)
Gd20.414724 (17)0.414724 (17)0.414724 (17)0.00866 (8)0.4959 (9)
P10.45924 (7)0.23219 (8)0.12323 (7)0.01072 (15)
O10.3172 (2)0.2318 (2)0.0852 (2)0.0203 (5)
O20.5370 (3)0.2948 (2)0.0161 (2)0.0226 (5)
O30.5069 (2)0.0960 (2)0.1447 (3)0.0215 (5)
O40.4778 (2)0.3104 (3)0.2458 (2)0.0215 (5)
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Cs10.02028 (10)0.02028 (10)0.02028 (10)0.00197 (8)0.00197 (8)0.00197 (8)
Cs20.01446 (12)0.01446 (12)0.01446 (12)0.00102 (8)0.00102 (8)0.00102 (8)
Zr10.00934 (9)0.00934 (9)0.00934 (9)0.00105 (8)0.00105 (8)0.00105 (8)
Zr20.00866 (8)0.00866 (8)0.00866 (8)0.00072 (6)0.00072 (6)0.00072 (6)
Gd10.00934 (9)0.00934 (9)0.00934 (9)0.00105 (8)0.00105 (8)0.00105 (8)
Gd20.00866 (8)0.00866 (8)0.00866 (8)0.00072 (6)0.00072 (6)0.00072 (6)
P10.0107 (3)0.0128 (3)0.0087 (3)0.0004 (3)0.0007 (3)0.0001 (3)
O10.0170 (11)0.0265 (12)0.0175 (11)0.0024 (9)0.0062 (9)0.0011 (10)
O20.0298 (14)0.0192 (12)0.0190 (12)0.0005 (10)0.0129 (10)0.0022 (10)
O30.0213 (11)0.0185 (12)0.0246 (12)0.0054 (10)0.0007 (10)0.0057 (10)
O40.0196 (12)0.0297 (14)0.0153 (11)0.0034 (10)0.0003 (9)0.0060 (10)
Geometric parameters (Å, º) top
Cs1—O1i3.128 (2)Zr2—O3ii2.160 (2)
Cs1—O1ii3.128 (3)Zr2—O3i2.160 (2)
Cs1—O1iii3.128 (2)Zr2—O3iii2.160 (2)
Cs1—O4iv3.284 (2)Zr2—O4x2.182 (2)
Cs1—O4v3.284 (2)Zr2—O42.182 (2)
Cs1—O4vi3.284 (2)Zr2—O4xi2.182 (2)
Cs1—O2v3.337 (3)Zr2—Cs2xix3.9580 (2)
Cs1—O2iv3.337 (3)Zr2—Cs2xx3.9580 (2)
Cs1—O2vi3.337 (3)Zr2—Cs2xxi3.9580 (3)
Cs1—P1v3.6209 (8)Zr2—Cs1xx4.6506 (3)
Cs1—P1iv3.6209 (8)Zr2—Cs1xix4.6506 (3)
Cs1—P1vi3.6209 (8)Zr2—Cs1xxi4.6506 (3)
Cs2—O3iv3.064 (3)P1—O31.528 (3)
Cs2—O3v3.064 (3)P1—O21.534 (3)
Cs2—O3vi3.064 (3)P1—O41.536 (2)
Cs2—O2vii3.159 (3)P1—O11.541 (2)
Cs2—O2viii3.159 (3)P1—Cs2xxi3.6051 (9)
Cs2—O2ix3.159 (3)P1—Cs1xix3.6209 (8)
Cs2—O4iv3.305 (3)P1—Cs2xix3.8052 (8)
Cs2—O4v3.305 (3)P1—Cs1xvii3.9397 (8)
Cs2—O4vi3.305 (3)O1—Cs1xvii3.128 (2)
Cs2—O4vii3.327 (3)O1—Cs2xxi3.744 (3)
Cs2—O4viii3.327 (3)O2—Gd1xxii2.128 (2)
Cs2—O4ix3.327 (3)O2—Zr1xxii2.128 (2)
Zr1—O1x2.114 (3)O2—Cs2xxi3.159 (3)
Zr1—O12.114 (3)O2—Cs1xix3.337 (3)
Zr1—O1xi2.114 (3)O2—Cs1xvii3.634 (3)
Zr1—O2xii2.128 (2)O3—Gd2xvii2.160 (2)
Zr1—O2xiii2.128 (2)O3—Zr2xvii2.160 (2)
Zr1—O2xiv2.128 (2)O3—Cs2xix3.064 (3)
Zr1—Cs2xv3.9207 (6)O3—Cs1xix3.643 (3)
Zr1—Cs1xvi4.0844 (3)O4—Cs1xix3.284 (2)
Zr1—Cs1xvii4.0844 (3)O4—Cs2xix3.305 (3)
Zr1—Cs1xviii4.0844 (3)O4—Cs2xxi3.327 (3)
O1i—Cs1—O1ii88.86 (6)O1xi—Zr1—Cs1xvi132.18 (7)
O1i—Cs1—O1iii88.86 (6)O2xii—Zr1—Cs1xvi62.58 (8)
O1ii—Cs1—O1iii88.86 (6)O2xiii—Zr1—Cs1xvi54.58 (8)
O1i—Cs1—O4iv82.74 (7)O2xiv—Zr1—Cs1xvi130.76 (7)
O1ii—Cs1—O4iv166.04 (6)Cs2xv—Zr1—Cs1xvi77.466 (5)
O1iii—Cs1—O4iv102.04 (6)O1x—Zr1—Cs1xvii132.18 (7)
O1i—Cs1—O4v102.04 (6)O1—Zr1—Cs1xvii48.82 (7)
O1ii—Cs1—O4v82.74 (7)O1xi—Zr1—Cs1xvii110.94 (6)
O1iii—Cs1—O4v166.04 (6)O2xii—Zr1—Cs1xvii130.76 (7)
O4iv—Cs1—O4v88.12 (7)O2xiii—Zr1—Cs1xvii62.58 (8)
O1i—Cs1—O4vi166.04 (6)O2xiv—Zr1—Cs1xvii54.58 (8)
O1ii—Cs1—O4vi102.04 (6)Cs2xv—Zr1—Cs1xvii77.465 (5)
O1iii—Cs1—O4vi82.74 (7)Cs1xvi—Zr1—Cs1xvii115.426 (4)
O4iv—Cs1—O4vi88.12 (7)O1x—Zr1—Cs1xviii110.94 (6)
O4v—Cs1—O4vi88.12 (7)O1—Zr1—Cs1xviii132.18 (7)
O1i—Cs1—O2v57.87 (6)O1xi—Zr1—Cs1xviii48.82 (7)
O1ii—Cs1—O2v82.42 (6)O2xii—Zr1—Cs1xviii54.58 (8)
O1iii—Cs1—O2v145.57 (6)O2xiii—Zr1—Cs1xviii130.76 (7)
O4iv—Cs1—O2v83.67 (6)O2xiv—Zr1—Cs1xviii62.58 (8)
O4v—Cs1—O2v44.17 (6)Cs2xv—Zr1—Cs1xviii77.465 (5)
O4vi—Cs1—O2v131.63 (6)Cs1xvi—Zr1—Cs1xviii115.426 (4)
O1i—Cs1—O2iv82.42 (6)Cs1xvii—Zr1—Cs1xviii115.426 (4)
O1ii—Cs1—O2iv145.57 (6)O3ii—Zr2—O3i91.65 (10)
O1iii—Cs1—O2iv57.87 (6)O3ii—Zr2—O3iii91.65 (10)
O4iv—Cs1—O2iv44.17 (6)O3i—Zr2—O3iii91.65 (10)
O4v—Cs1—O2iv131.63 (6)O3ii—Zr2—O4x84.11 (9)
O4vi—Cs1—O2iv83.67 (6)O3i—Zr2—O4x95.26 (10)
O2v—Cs1—O2iv119.177 (13)O3iii—Zr2—O4x171.99 (10)
O1i—Cs1—O2vi145.57 (6)O3ii—Zr2—O4171.99 (10)
O1ii—Cs1—O2vi57.87 (6)O3i—Zr2—O484.11 (9)
O1iii—Cs1—O2vi82.42 (6)O3iii—Zr2—O495.26 (10)
O4iv—Cs1—O2vi131.63 (6)O4x—Zr2—O489.49 (9)
O4v—Cs1—O2vi83.67 (6)O3ii—Zr2—O4xi95.26 (10)
O4vi—Cs1—O2vi44.17 (6)O3i—Zr2—O4xi171.99 (10)
O2v—Cs1—O2vi119.177 (13)O3iii—Zr2—O4xi84.11 (9)
O2iv—Cs1—O2vi119.177 (13)O4x—Zr2—O4xi89.49 (9)
O1i—Cs1—P1v80.01 (5)O4—Zr2—O4xi89.49 (9)
O1ii—Cs1—P1v94.16 (5)O3ii—Zr2—Cs2xix115.56 (7)
O1iii—Cs1—P1v168.40 (5)O3i—Zr2—Cs2xix50.20 (7)
O4iv—Cs1—P1v73.47 (4)O3iii—Zr2—Cs2xix130.80 (7)
O4v—Cs1—P1v25.09 (4)O4x—Zr2—Cs2xix57.19 (7)
O4vi—Cs1—P1v107.50 (5)O4—Zr2—Cs2xix56.61 (7)
O2v—Cs1—P1v25.04 (4)O4xi—Zr2—Cs2xix129.03 (6)
O2iv—Cs1—P1v116.74 (4)O3ii—Zr2—Cs2xx50.20 (7)
O2vi—Cs1—P1v108.66 (5)O3i—Zr2—Cs2xx130.80 (7)
O1i—Cs1—P1iv94.16 (5)O3iii—Zr2—Cs2xx115.56 (7)
O1ii—Cs1—P1iv168.40 (5)O4x—Zr2—Cs2xx56.61 (7)
O1iii—Cs1—P1iv80.01 (5)O4—Zr2—Cs2xx129.03 (6)
O4iv—Cs1—P1iv25.09 (4)O4xi—Zr2—Cs2xx57.19 (7)
O4v—Cs1—P1iv107.50 (5)Cs2xix—Zr2—Cs2xx113.265 (4)
O4vi—Cs1—P1iv73.47 (5)O3ii—Zr2—Cs2xxi130.80 (7)
O2v—Cs1—P1iv108.66 (5)O3i—Zr2—Cs2xxi115.56 (7)
O2iv—Cs1—P1iv25.04 (4)O3iii—Zr2—Cs2xxi50.20 (7)
O2vi—Cs1—P1iv116.74 (4)O4x—Zr2—Cs2xxi129.03 (6)
P1v—Cs1—P1iv97.398 (18)O4—Zr2—Cs2xxi57.19 (7)
O1i—Cs1—P1vi168.40 (5)O4xi—Zr2—Cs2xxi56.61 (7)
O1ii—Cs1—P1vi80.01 (5)Cs2xix—Zr2—Cs2xxi113.265 (4)
O1iii—Cs1—P1vi94.16 (5)Cs2xx—Zr2—Cs2xxi113.265 (4)
O4iv—Cs1—P1vi107.50 (5)O3ii—Zr2—Cs1xx49.59 (7)
O4v—Cs1—P1vi73.47 (4)O3i—Zr2—Cs1xx78.32 (7)
O4vi—Cs1—P1vi25.09 (4)O3iii—Zr2—Cs1xx138.88 (7)
O2v—Cs1—P1vi116.74 (4)O4x—Zr2—Cs1xx39.76 (6)
O2iv—Cs1—P1vi108.66 (5)O4—Zr2—Cs1xx122.65 (7)
O2vi—Cs1—P1vi25.04 (4)O4xi—Zr2—Cs1xx109.30 (7)
P1v—Cs1—P1vi97.398 (18)Cs2xix—Zr2—Cs1xx70.662 (6)
P1iv—Cs1—P1vi97.398 (18)Cs2xx—Zr2—Cs1xx53.888 (7)
O3iv—Cs2—O3v98.54 (6)Cs2xxi—Zr2—Cs1xx165.115 (7)
O3iv—Cs2—O3vi98.54 (6)O3ii—Zr2—Cs1xix138.88 (7)
O3v—Cs2—O3vi98.54 (6)O3i—Zr2—Cs1xix49.59 (7)
O3iv—Cs2—O2vii99.38 (7)O3iii—Zr2—Cs1xix78.32 (7)
O3v—Cs2—O2vii100.18 (7)O4x—Zr2—Cs1xix109.30 (7)
O3vi—Cs2—O2vii151.74 (7)O4—Zr2—Cs1xix39.76 (6)
O3iv—Cs2—O2viii151.74 (7)O4xi—Zr2—Cs1xix122.65 (7)
O3v—Cs2—O2viii99.38 (7)Cs2xix—Zr2—Cs1xix53.888 (7)
O3vi—Cs2—O2viii100.18 (7)Cs2xx—Zr2—Cs1xix165.115 (7)
O2vii—Cs2—O2viii55.96 (7)Cs2xxi—Zr2—Cs1xix70.662 (6)
O3iv—Cs2—O2ix100.18 (7)Cs1xx—Zr2—Cs1xix119.6680 (10)
O3v—Cs2—O2ix151.74 (7)O3ii—Zr2—Cs1xxi78.32 (7)
O3vi—Cs2—O2ix99.38 (7)O3i—Zr2—Cs1xxi138.88 (7)
O2vii—Cs2—O2ix55.96 (7)O3iii—Zr2—Cs1xxi49.59 (7)
O2viii—Cs2—O2ix55.96 (7)O4x—Zr2—Cs1xxi122.65 (7)
O3iv—Cs2—O4iv46.07 (6)O4—Zr2—Cs1xxi109.30 (7)
O3v—Cs2—O4iv54.19 (6)O4xi—Zr2—Cs1xxi39.76 (6)
O3vi—Cs2—O4iv113.81 (7)Cs2xix—Zr2—Cs1xxi165.115 (7)
O2vii—Cs2—O4iv94.33 (6)Cs2xx—Zr2—Cs1xxi70.662 (6)
O2viii—Cs2—O4iv138.56 (7)Cs2xxi—Zr2—Cs1xxi53.888 (7)
O2ix—Cs2—O4iv134.00 (6)Cs1xx—Zr2—Cs1xxi119.6680 (10)
O3iv—Cs2—O4v113.81 (7)Cs1xix—Zr2—Cs1xxi119.6680 (10)
O3v—Cs2—O4v46.07 (6)O3—P1—O2109.48 (15)
O3vi—Cs2—O4v54.19 (6)O3—P1—O4109.48 (15)
O2vii—Cs2—O4v134.00 (6)O2—P1—O4108.43 (14)
O2viii—Cs2—O4v94.33 (6)O3—P1—O1110.59 (14)
O2ix—Cs2—O4v138.56 (7)O2—P1—O1108.94 (15)
O4iv—Cs2—O4v87.43 (6)O4—P1—O1109.87 (14)
O3iv—Cs2—O4vi54.19 (6)O3—P1—Cs2xxi165.95 (10)
O3v—Cs2—O4vi113.81 (7)O2—P1—Cs2xxi60.95 (10)
O3vi—Cs2—O4vi46.07 (6)O4—P1—Cs2xxi67.22 (10)
O2vii—Cs2—O4vi138.56 (7)O1—P1—Cs2xxi83.00 (10)
O2viii—Cs2—O4vi134.00 (6)O3—P1—Cs1xix78.66 (10)
O2ix—Cs2—O4vi94.33 (6)O2—P1—Cs1xix67.08 (11)
O4iv—Cs2—O4vi87.43 (6)O4—P1—Cs1xix65.10 (10)
O4v—Cs2—O4vi87.43 (6)O1—P1—Cs1xix170.73 (10)
O3iv—Cs2—O4vii85.56 (6)Cs2xxi—P1—Cs1xix87.795 (18)
O3v—Cs2—O4vii60.10 (6)O3—P1—Cs2xix50.31 (11)
O3vi—Cs2—O4vii158.64 (6)O2—P1—Cs2xix129.95 (11)
O2vii—Cs2—O4vii45.06 (6)O4—P1—Cs2xix59.59 (10)
O2viii—Cs2—O4vii84.66 (7)O1—P1—Cs2xix120.92 (10)
O2ix—Cs2—O4vii100.50 (6)Cs2xxi—P1—Cs2xix126.27 (2)
O4iv—Cs2—O4vii55.19 (9)Cs1xix—P1—Cs2xix64.200 (15)
O4v—Cs2—O4vii104.931 (7)O3—P1—Cs1xvii103.14 (11)
O4vi—Cs2—O4vii139.08 (5)O2—P1—Cs1xvii67.28 (11)
O3iv—Cs2—O4viii158.64 (6)O4—P1—Cs1xvii146.20 (11)
O3v—Cs2—O4viii85.56 (6)O1—P1—Cs1xvii48.07 (10)
O3vi—Cs2—O4viii60.10 (6)Cs2xxi—P1—Cs1xvii83.096 (16)
O2vii—Cs2—O4viii100.50 (6)Cs1xix—P1—Cs1xvii131.91 (2)
O2viii—Cs2—O4viii45.06 (6)Cs2xix—P1—Cs1xvii149.73 (2)
O2ix—Cs2—O4viii84.66 (6)P1—O1—Zr1138.41 (15)
O4iv—Cs2—O4viii139.08 (5)P1—O1—Cs1xvii110.43 (12)
O4v—Cs2—O4viii55.19 (9)Zr1—O1—Cs1xvii100.60 (8)
O4vi—Cs2—O4viii104.931 (7)P1—O1—Cs2xxi72.89 (10)
O4vii—Cs2—O4viii114.21 (3)Zr1—O1—Cs2xxi133.36 (10)
O3iv—Cs2—O4ix60.10 (6)Cs1xvii—O1—Cs2xxi93.19 (6)
O3v—Cs2—O4ix158.64 (6)P1—O2—Gd1xxii171.63 (16)
O3vi—Cs2—O4ix85.56 (6)P1—O2—Zr1xxii171.63 (16)
O2vii—Cs2—O4ix84.66 (7)P1—O2—Cs2xxi93.93 (11)
O2viii—Cs2—O4ix100.50 (6)Gd1xxii—O2—Cs2xxi93.68 (9)
O2ix—Cs2—O4ix45.06 (6)Zr1xxii—O2—Cs2xxi93.68 (9)
O4iv—Cs2—O4ix104.931 (7)P1—O2—Cs1xix87.88 (11)
O4v—Cs2—O4ix139.08 (5)Gd1xxii—O2—Cs1xix94.10 (9)
O4vi—Cs2—O4ix55.19 (9)Zr1xxii—O2—Cs1xix94.10 (9)
O4vii—Cs2—O4ix114.21 (3)Cs2xxi—O2—Cs1xix100.90 (7)
O4viii—Cs2—O4ix114.21 (3)P1—O2—Cs1xvii89.80 (11)
O1x—Zr1—O190.81 (10)Gd1xxii—O2—Cs1xvii86.09 (8)
O1x—Zr1—O1xi90.81 (10)Zr1xxii—O2—Cs1xvii86.09 (8)
O1—Zr1—O1xi90.81 (10)Cs2xxi—O2—Cs1xvii94.79 (7)
O1x—Zr1—O2xii86.05 (9)Cs1xix—O2—Cs1xvii164.26 (8)
O1—Zr1—O2xii173.23 (10)P1—O3—Gd2xvii154.47 (17)
O1xi—Zr1—O2xii95.23 (10)P1—O3—Zr2xvii154.47 (17)
O1x—Zr1—O2xiii95.23 (10)P1—O3—Cs2xix107.12 (13)
O1—Zr1—O2xiii86.05 (9)Gd2xvii—O3—Cs2xix96.99 (8)
O1xi—Zr1—O2xiii173.23 (10)Zr2xvii—O3—Cs2xix96.99 (8)
O2xii—Zr1—O2xiii88.27 (10)P1—O3—Cs1xix77.05 (10)
O1x—Zr1—O2xiv173.23 (10)Gd2xvii—O3—Cs1xix103.56 (8)
O1—Zr1—O2xiv95.23 (10)Zr2xvii—O3—Cs1xix103.56 (8)
O1xi—Zr1—O2xiv86.05 (9)Cs2xix—O3—Cs1xix71.56 (5)
O2xii—Zr1—O2xiv88.27 (10)P1—O4—Zr2155.08 (15)
O2xiii—Zr1—O2xiv88.27 (10)P1—O4—Cs1xix89.81 (11)
O1x—Zr1—Cs2xv124.69 (7)Zr2—O4—Cs1xix115.10 (9)
O1—Zr1—Cs2xv124.69 (7)P1—O4—Cs2xix96.79 (12)
O1xi—Zr1—Cs2xv124.69 (7)Zr2—O4—Cs2xix89.93 (8)
O2xii—Zr1—Cs2xv53.52 (7)Cs1xix—O4—Cs2xix73.65 (5)
O2xiii—Zr1—Cs2xv53.52 (7)P1—O4—Cs2xxi87.59 (11)
O2xiv—Zr1—Cs2xv53.52 (7)Zr2—O4—Cs2xxi89.35 (8)
O1x—Zr1—Cs1xvi48.82 (7)Cs1xix—O4—Cs2xxi98.55 (7)
O1—Zr1—Cs1xvi110.94 (6)Cs2xix—O4—Cs2xxi170.96 (8)
Symmetry codes: (i) y+1/2, z+1/2, x+1; (ii) z+1/2, x+1, y+1/2; (iii) x+1, y+1/2, z+1/2; (iv) x+3/2, y+1, z+1/2; (v) y+1, z+1/2, x+3/2; (vi) z+1/2, x+3/2, y+1; (vii) y+3/2, z+1, x+1/2; (viii) z+1, x+1/2, y+3/2; (ix) x+1/2, y+3/2, z+1; (x) y, z, x; (xi) z, x, y; (xii) z, x1/2, y+1/2; (xiii) y+1/2, z, x1/2; (xiv) x1/2, y+1/2, z; (xv) x1, y1, z1; (xvi) x1/2, y+1/2, z+1; (xvii) x+1, y1/2, z+1/2; (xviii) x+1/2, y+1, z1/2; (xix) x+3/2, y+1, z1/2; (xx) x+1, y1/2, z+3/2; (xxi) x1/2, y+3/2, z+1; (xxii) x+1/2, y+1/2, z.
(CsTbZrP) top
Crystal data top
O12P3Tb0.87Zr1.13·1(Cs)·0.87(Cs)Dx = 4.457 Mg m3
Mr = 775.00Mo Kα radiation, λ = 0.71073 Å
Cubic, P213Cell parameters from 8906 reflections
Hall symbol: P 2ac 2ab 3θ = 2.8–28.2°
a = 10.4920 (12) ŵ = 12.59 mm1
V = 1155.0 (2) Å3T = 293 K
Z = 4Tetrahedron, colourless
F(000) = 1382.70.1 × 0.08 × 0.07 mm
Data collection top
XCalibur-3
diffractometer		942 independent reflections
Radiation source: fine focus sealed tube923 reflections with I > 2σ(I)
Graphite monochromatorRint = 0.037
ϕ and ω scansθmax = 28.2°, θmin = 2.8°
Absorption correction: multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		h = 1313
Tmin = 0.294, Tmax = 0.432k = 1312
8906 measured reflectionsl = 1313
Refinement top
Refinement on F2Primary atom site location: structure-invariant direct methods
Least-squares matrix: fullSecondary atom site location: difference Fourier map
R[F2 > 2σ(F2)] = 0.017 w = 1/[σ2(Fo2) + (0.0277P)2 + 1.4032P]
where P = (Fo2 + 2Fc2)/3
wR(F2) = 0.048(Δ/σ)max = 0.003
S = 1.25Δρmax = 0.87 e Å3
942 reflectionsΔρmin = 0.90 e Å3
64 parametersAbsolute structure: Flack H D (1983), Acta Cryst. A39, 876-881
3 restraintsAbsolute structure parameter: 0.02 (3)
Crystal data top
O12P3Tb0.87Zr1.13·1(Cs)·0.87(Cs)Z = 4
Mr = 775.00Mo Kα radiation
Cubic, P213µ = 12.59 mm1
a = 10.4920 (12) ÅT = 293 K
V = 1155.0 (2) Å30.1 × 0.08 × 0.07 mm
Data collection top
XCalibur-3
diffractometer		942 independent reflections
Absorption correction: multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		923 reflections with I > 2σ(I)
Tmin = 0.294, Tmax = 0.432Rint = 0.037
8906 measured reflections
Refinement top
R[F2 > 2σ(F2)] = 0.0173 restraints
wR(F2) = 0.048Δρmax = 0.87 e Å3
S = 1.25Δρmin = 0.90 e Å3
942 reflectionsAbsolute structure: Flack H D (1983), Acta Cryst. A39, 876-881
64 parametersAbsolute structure parameter: 0.02 (3)
Special details top

Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell e.s.d.'s are taken into account individually in the estimation of e.s.d.'s in distances, angles and torsion angles; correlations between e.s.d.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s. planes.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
Cs10.71059 (3)0.71059 (3)0.71059 (3)0.01566 (17)1.016 (3)
Cs20.92920 (3)0.92920 (3)0.92920 (3)0.01075 (19)0.855 (3)
Zr10.14539 (3)0.14539 (3)0.14539 (3)0.00694 (14)0.657 (3)
Zr20.41474 (3)0.41474 (3)0.41474 (3)0.00594 (13)0.4722 (9)
Tb10.14539 (3)0.14539 (3)0.14539 (3)0.00694 (14)0.343 (3)
Tb20.41474 (3)0.41474 (3)0.41474 (3)0.00594 (13)0.5278 (9)
P10.45951 (11)0.23214 (12)0.12342 (12)0.0075 (2)
O10.3175 (4)0.2323 (4)0.0852 (4)0.0151 (7)
O20.5378 (4)0.2941 (4)0.0167 (4)0.0189 (8)
O30.5069 (4)0.0950 (4)0.1453 (4)0.0168 (8)
O40.4781 (4)0.3099 (4)0.2462 (4)0.0168 (8)
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Cs10.01566 (17)0.01566 (17)0.01566 (17)0.00145 (12)0.00145 (12)0.00145 (12)
Cs20.01075 (19)0.01075 (19)0.01075 (19)0.00090 (12)0.00090 (12)0.00090 (12)
Zr10.00694 (14)0.00694 (14)0.00694 (14)0.00073 (12)0.00073 (12)0.00073 (12)
Zr20.00594 (13)0.00594 (13)0.00594 (13)0.00056 (10)0.00056 (10)0.00056 (10)
Tb10.00694 (14)0.00694 (14)0.00694 (14)0.00073 (12)0.00073 (12)0.00073 (12)
Tb20.00594 (13)0.00594 (13)0.00594 (13)0.00056 (10)0.00056 (10)0.00056 (10)
P10.0075 (6)0.0090 (5)0.0061 (5)0.0008 (4)0.0005 (4)0.0004 (4)
O10.0129 (17)0.0214 (19)0.0111 (17)0.0029 (14)0.0057 (13)0.0024 (15)
O20.024 (2)0.0165 (19)0.0161 (19)0.0004 (16)0.0109 (16)0.0002 (16)
O30.0161 (18)0.0139 (18)0.0202 (19)0.0056 (15)0.0020 (15)0.0065 (15)
O40.0155 (19)0.023 (2)0.0122 (17)0.0002 (15)0.0005 (15)0.0056 (15)
Geometric parameters (Å, º) top
Cs1—O1i3.125 (4)Zr2—O3i2.156 (4)
Cs1—O1ii3.125 (4)Zr2—O3iii2.156 (4)
Cs1—O1iii3.125 (4)Zr2—O3ii2.156 (4)
Cs1—O4iv3.295 (4)Zr2—O4x2.186 (4)
Cs1—O4v3.295 (4)Zr2—O42.186 (4)
Cs1—O4vi3.295 (4)Zr2—O4xi2.186 (4)
Cs1—O2v3.333 (4)Zr2—Cs2xix3.9656 (5)
Cs1—O2iv3.333 (4)Zr2—Cs2xx3.9656 (5)
Cs1—O2vi3.333 (4)Zr2—Cs2xxi3.9656 (5)
Cs1—P1iv3.6303 (13)Zr2—Cs1xx4.6659 (6)
Cs1—P1v3.6303 (13)Zr2—Cs1xix4.6659 (6)
Cs1—P1vi3.6303 (13)Zr2—Cs1xxi4.6659 (6)
Cs2—O3iv3.064 (4)P1—O21.534 (4)
Cs2—O3v3.064 (4)P1—O41.538 (4)
Cs2—O3vi3.064 (4)P1—O31.540 (4)
Cs2—O2vii3.170 (4)P1—O11.543 (4)
Cs2—O2viii3.170 (4)P1—Cs2xix3.6099 (14)
Cs2—O2ix3.170 (4)P1—Cs1xx3.6303 (13)
Cs2—O4v3.306 (4)P1—Cs2xx3.8108 (14)
Cs2—O4iv3.306 (4)P1—Cs1xvi3.9391 (14)
Cs2—O4vi3.306 (4)O1—Cs1xvi3.125 (4)
Cs2—O4viii3.338 (4)O1—Cs2xix3.743 (4)
Cs2—O4vii3.338 (4)O2—Tb1xxii2.137 (4)
Cs2—O4ix3.338 (4)O2—Zr1xxii2.137 (4)
Zr1—O1x2.119 (4)O2—Cs2xix3.170 (4)
Zr1—O12.119 (4)O2—Cs1xx3.333 (4)
Zr1—O1xi2.119 (4)O2—Cs1xvi3.640 (4)
Zr1—O2xii2.137 (4)O3—Tb2xvi2.156 (4)
Zr1—O2xiii2.137 (4)O3—Zr2xvi2.156 (4)
Zr1—O2xiv2.137 (4)O3—Cs2xx3.064 (4)
Zr1—Cs2xv3.9287 (10)O3—Cs1xx3.663 (4)
Zr1—Cs1xvi4.0867 (5)O4—Cs1xx3.295 (4)
Zr1—Cs1xvii4.0867 (5)O4—Cs2xx3.306 (4)
Zr1—Cs1xviii4.0867 (5)O4—Cs2xix3.338 (4)
O1i—Cs1—O1ii89.16 (10)O1xi—Zr1—Cs1xvi132.04 (10)
O1i—Cs1—O1iii89.16 (10)O2xii—Zr1—Cs1xvi54.43 (12)
O1ii—Cs1—O1iii89.16 (10)O2xiii—Zr1—Cs1xvi62.67 (12)
O1i—Cs1—O4iv82.74 (10)O2xiv—Zr1—Cs1xvi130.84 (11)
O1ii—Cs1—O4iv165.91 (10)Cs2xv—Zr1—Cs1xvi77.437 (8)
O1iii—Cs1—O4iv102.18 (10)O1x—Zr1—Cs1xvii48.74 (10)
O1i—Cs1—O4v102.18 (10)O1—Zr1—Cs1xvii132.04 (10)
O1ii—Cs1—O4v82.74 (10)O1xi—Zr1—Cs1xvii111.14 (10)
O1iii—Cs1—O4v165.91 (10)O2xii—Zr1—Cs1xvii62.67 (12)
O4iv—Cs1—O4v87.70 (11)O2xiii—Zr1—Cs1xvii130.84 (11)
O1i—Cs1—O4vi165.91 (10)O2xiv—Zr1—Cs1xvii54.43 (12)
O1ii—Cs1—O4vi102.18 (10)Cs2xv—Zr1—Cs1xvii77.437 (8)
O1iii—Cs1—O4vi82.74 (10)Cs1xvi—Zr1—Cs1xvii115.406 (6)
O4iv—Cs1—O4vi87.70 (11)O1x—Zr1—Cs1xviii132.04 (10)
O4v—Cs1—O4vi87.70 (11)O1—Zr1—Cs1xviii111.14 (10)
O1i—Cs1—O2v57.98 (10)O1xi—Zr1—Cs1xviii48.74 (10)
O1ii—Cs1—O2v82.54 (10)O2xii—Zr1—Cs1xviii130.84 (11)
O1iii—Cs1—O2v146.03 (10)O2xiii—Zr1—Cs1xviii54.43 (12)
O4iv—Cs1—O2v83.39 (10)O2xiv—Zr1—Cs1xviii62.67 (12)
O4v—Cs1—O2v44.20 (10)Cs2xv—Zr1—Cs1xviii77.437 (8)
O4vi—Cs1—O2v131.20 (10)Cs1xvi—Zr1—Cs1xviii115.406 (6)
O1i—Cs1—O2iv82.54 (10)Cs1xvii—Zr1—Cs1xviii115.406 (6)
O1ii—Cs1—O2iv146.03 (10)O3i—Zr2—O3iii91.90 (15)
O1iii—Cs1—O2iv57.98 (10)O3i—Zr2—O3ii91.90 (15)
O4iv—Cs1—O2iv44.20 (10)O3iii—Zr2—O3ii91.90 (15)
O4v—Cs1—O2iv131.20 (10)O3i—Zr2—O4x83.97 (15)
O4vi—Cs1—O2iv83.39 (10)O3iii—Zr2—O4x95.09 (15)
O2v—Cs1—O2iv119.08 (2)O3ii—Zr2—O4x171.98 (16)
O1i—Cs1—O2vi146.03 (10)O3i—Zr2—O495.09 (15)
O1ii—Cs1—O2vi57.98 (10)O3iii—Zr2—O4171.98 (16)
O1iii—Cs1—O2vi82.54 (10)O3ii—Zr2—O483.97 (15)
O4iv—Cs1—O2vi131.20 (10)O4x—Zr2—O489.55 (14)
O4v—Cs1—O2vi83.39 (10)O3i—Zr2—O4xi171.98 (16)
O4vi—Cs1—O2vi44.20 (10)O3iii—Zr2—O4xi83.97 (15)
O2v—Cs1—O2vi119.08 (2)O3ii—Zr2—O4xi95.09 (15)
O2iv—Cs1—O2vi119.08 (2)O4x—Zr2—O4xi89.55 (14)
O1i—Cs1—P1iv94.09 (8)O4—Zr2—O4xi89.55 (14)
O1ii—Cs1—P1iv168.70 (8)O3i—Zr2—Cs2xix50.01 (11)
O1iii—Cs1—P1iv80.08 (7)O3iii—Zr2—Cs2xix130.67 (11)
O4iv—Cs1—P1iv25.06 (7)O3ii—Zr2—Cs2xix115.74 (11)
O4v—Cs1—P1iv107.06 (8)O4x—Zr2—Cs2xix56.47 (11)
O4vi—Cs1—P1iv73.22 (7)O4—Zr2—Cs2xix57.31 (11)
O2v—Cs1—P1iv108.34 (7)O4xi—Zr2—Cs2xix129.05 (10)
O2iv—Cs1—P1iv24.98 (7)O3i—Zr2—Cs2xx130.67 (11)
O2vi—Cs1—P1iv116.56 (7)O3iii—Zr2—Cs2xx115.74 (11)
O1i—Cs1—P1v80.08 (7)O3ii—Zr2—Cs2xx50.01 (11)
O1ii—Cs1—P1v94.09 (8)O4x—Zr2—Cs2xx129.05 (10)
O1iii—Cs1—P1v168.70 (8)O4—Zr2—Cs2xx56.47 (11)
O4iv—Cs1—P1v73.22 (7)O4xi—Zr2—Cs2xx57.31 (11)
O4v—Cs1—P1v25.06 (7)Cs2xix—Zr2—Cs2xx113.250 (6)
O4vi—Cs1—P1v107.06 (8)O3i—Zr2—Cs2xxi115.74 (11)
O2v—Cs1—P1v24.98 (7)O3iii—Zr2—Cs2xxi50.01 (11)
O2iv—Cs1—P1v116.56 (7)O3ii—Zr2—Cs2xxi130.67 (11)
O2vi—Cs1—P1v108.34 (7)O4x—Zr2—Cs2xxi57.31 (11)
P1iv—Cs1—P1v97.13 (3)O4—Zr2—Cs2xxi129.05 (10)
O1i—Cs1—P1vi168.70 (8)O4xi—Zr2—Cs2xxi56.47 (11)
O1ii—Cs1—P1vi80.08 (7)Cs2xix—Zr2—Cs2xxi113.250 (6)
O1iii—Cs1—P1vi94.09 (8)Cs2xx—Zr2—Cs2xxi113.250 (6)
O4iv—Cs1—P1vi107.06 (8)O3i—Zr2—Cs1xx77.97 (11)
O4v—Cs1—P1vi73.22 (7)O3iii—Zr2—Cs1xx139.14 (11)
O4vi—Cs1—P1vi25.06 (7)O3ii—Zr2—Cs1xx49.75 (11)
O2v—Cs1—P1vi116.56 (7)O4x—Zr2—Cs1xx122.44 (11)
O2iv—Cs1—P1vi108.34 (7)O4—Zr2—Cs1xx39.70 (10)
O2vi—Cs1—P1vi24.98 (7)O4xi—Zr2—Cs1xx109.60 (11)
P1iv—Cs1—P1vi97.13 (3)Cs2xix—Zr2—Cs1xx70.512 (9)
P1v—Cs1—P1vi97.13 (3)Cs2xx—Zr2—Cs1xx54.073 (10)
O3iv—Cs2—O3v98.66 (10)Cs2xxi—Zr2—Cs1xx165.239 (12)
O3iv—Cs2—O3vi98.66 (10)O3i—Zr2—Cs1xix49.75 (11)
O3v—Cs2—O3vi98.66 (10)O3iii—Zr2—Cs1xix77.97 (11)
O3iv—Cs2—O2vii151.75 (11)O3ii—Zr2—Cs1xix139.14 (11)
O3v—Cs2—O2vii99.44 (11)O4x—Zr2—Cs1xix39.70 (10)
O3vi—Cs2—O2vii99.86 (10)O4—Zr2—Cs1xix109.60 (11)
O3iv—Cs2—O2viii99.44 (11)O4xi—Zr2—Cs1xix122.44 (11)
O3v—Cs2—O2viii99.86 (10)Cs2xix—Zr2—Cs1xix54.073 (10)
O3vi—Cs2—O2viii151.75 (11)Cs2xx—Zr2—Cs1xix165.239 (12)
O2vii—Cs2—O2viii56.10 (12)Cs2xxi—Zr2—Cs1xix70.512 (9)
O3iv—Cs2—O2ix99.86 (10)Cs1xx—Zr2—Cs1xix119.6590 (10)
O3v—Cs2—O2ix151.75 (11)O3i—Zr2—Cs1xxi139.14 (11)
O3vi—Cs2—O2ix99.44 (11)O3iii—Zr2—Cs1xxi49.75 (11)
O2vii—Cs2—O2ix56.10 (12)O3ii—Zr2—Cs1xxi77.97 (11)
O2viii—Cs2—O2ix56.10 (12)O4x—Zr2—Cs1xxi109.60 (11)
O3iv—Cs2—O4v113.84 (10)O4—Zr2—Cs1xxi122.44 (11)
O3v—Cs2—O4v46.22 (10)O4xi—Zr2—Cs1xxi39.70 (10)
O3vi—Cs2—O4v54.10 (10)Cs2xix—Zr2—Cs1xxi165.239 (12)
O2vii—Cs2—O4v94.32 (10)Cs2xx—Zr2—Cs1xxi70.512 (9)
O2viii—Cs2—O4v133.89 (10)Cs2xxi—Zr2—Cs1xxi54.073 (10)
O2ix—Cs2—O4v138.77 (11)Cs1xx—Zr2—Cs1xxi119.6590 (10)
O3iv—Cs2—O4iv46.22 (10)Cs1xix—Zr2—Cs1xxi119.6590 (10)
O3v—Cs2—O4iv54.10 (10)O2—P1—O4108.6 (2)
O3vi—Cs2—O4iv113.84 (11)O2—P1—O3109.4 (2)
O2vii—Cs2—O4iv138.77 (11)O4—P1—O3109.3 (2)
O2viii—Cs2—O4iv94.32 (10)O2—P1—O1109.1 (2)
O2ix—Cs2—O4iv133.89 (10)O4—P1—O1109.9 (2)
O4v—Cs2—O4iv87.33 (10)O3—P1—O1110.6 (2)
O3iv—Cs2—O4vi54.10 (10)O2—P1—Cs2xix61.20 (16)
O3v—Cs2—O4vi113.84 (11)O4—P1—Cs2xix67.46 (16)
O3vi—Cs2—O4vi46.22 (10)O3—P1—Cs2xix166.22 (16)
O2vii—Cs2—O4vi133.89 (10)O1—P1—Cs2xix82.79 (15)
O2viii—Cs2—O4vi138.77 (11)O2—P1—Cs1xx66.60 (17)
O2ix—Cs2—O4vi94.32 (10)O4—P1—Cs1xx65.17 (15)
O4v—Cs2—O4vi87.33 (10)O3—P1—Cs1xx79.01 (16)
O4iv—Cs2—O4vi87.33 (10)O1—P1—Cs1xx170.42 (16)
O3iv—Cs2—O4viii85.66 (10)Cs2xix—P1—Cs1xx87.68 (3)
O3v—Cs2—O4viii59.88 (10)O2—P1—Cs2xx129.70 (17)
O3vi—Cs2—O4viii158.53 (10)O4—P1—Cs2xx59.44 (16)
O2vii—Cs2—O4viii84.87 (10)O3—P1—Cs2xx50.23 (17)
O2viii—Cs2—O4viii44.98 (10)O1—P1—Cs2xx121.01 (16)
O2ix—Cs2—O4viii100.52 (10)Cs2xix—P1—Cs2xx126.37 (3)
O4v—Cs2—O4viii104.887 (11)Cs1xx—P1—Cs2xx64.49 (2)
O4iv—Cs2—O4viii55.22 (14)O2—P1—Cs1xvi67.52 (16)
O4vi—Cs2—O4viii139.04 (7)O4—P1—Cs1xvi146.44 (16)
O3iv—Cs2—O4vii158.53 (10)O3—P1—Cs1xvi103.02 (17)
O3v—Cs2—O4vii85.66 (10)O1—P1—Cs1xvi48.03 (15)
O3vi—Cs2—O4vii59.88 (10)Cs2xix—P1—Cs1xvi83.14 (3)
O2vii—Cs2—O4vii44.98 (10)Cs1xx—P1—Cs1xvi131.73 (3)
O2viii—Cs2—O4vii100.52 (10)Cs2xx—P1—Cs1xvi149.58 (4)
O2ix—Cs2—O4vii84.87 (10)P1—O1—Zr1138.2 (2)
O4v—Cs2—O4vii55.22 (14)P1—O1—Cs1xvi110.44 (19)
O4iv—Cs2—O4vii139.04 (7)Zr1—O1—Cs1xvi100.62 (13)
O4vi—Cs2—O4vii104.887 (11)P1—O1—Cs2xix73.08 (15)
O4viii—Cs2—O4vii114.26 (5)Zr1—O1—Cs2xix133.38 (15)
O3iv—Cs2—O4ix59.88 (10)Cs1xvi—O1—Cs2xix93.35 (10)
O3v—Cs2—O4ix158.53 (10)P1—O2—Tb1xxii171.8 (3)
O3vi—Cs2—O4ix85.66 (10)P1—O2—Zr1xxii171.8 (3)
O2vii—Cs2—O4ix100.52 (10)P1—O2—Cs2xix93.72 (17)
O2viii—Cs2—O4ix84.87 (10)Tb1xxii—O2—Cs2xix93.46 (14)
O2ix—Cs2—O4ix44.98 (10)Zr1xxii—O2—Cs2xix93.46 (14)
O4v—Cs2—O4ix139.04 (7)P1—O2—Cs1xx88.42 (18)
O4iv—Cs2—O4ix104.887 (11)Tb1xxii—O2—Cs1xx94.13 (14)
O4vi—Cs2—O4ix55.22 (14)Zr1xxii—O2—Cs1xx94.13 (14)
O4viii—Cs2—O4ix114.26 (5)Cs2xix—O2—Cs1xx100.90 (11)
O4vii—Cs2—O4ix114.26 (5)P1—O2—Cs1xvi89.57 (18)
O1x—Zr1—O190.90 (15)Tb1xxii—O2—Cs1xvi85.89 (12)
O1x—Zr1—O1xi90.90 (15)Zr1xxii—O2—Cs1xvi85.89 (12)
O1—Zr1—O1xi90.90 (15)Cs2xix—O2—Cs1xvi94.61 (11)
O1x—Zr1—O2xii86.09 (15)Cs1xx—O2—Cs1xvi164.46 (13)
O1—Zr1—O2xii94.88 (15)P1—O3—Tb2xvi154.1 (3)
O1xi—Zr1—O2xii173.52 (16)P1—O3—Zr2xvi154.1 (3)
O1x—Zr1—O2xiii173.52 (16)P1—O3—Cs2xx107.0 (2)
O1—Zr1—O2xiii86.09 (15)Tb2xvi—O3—Cs2xx97.36 (13)
O1xi—Zr1—O2xiii94.88 (15)Zr2xvi—O3—Cs2xx97.36 (13)
O2xii—Zr1—O2xiii88.45 (16)P1—O3—Cs1xx76.62 (16)
O1x—Zr1—O2xiv94.88 (15)Tb2xvi—O3—Cs1xx103.55 (13)
O1—Zr1—O2xiv173.52 (16)Zr2xvi—O3—Cs1xx103.55 (13)
O1xi—Zr1—O2xiv86.09 (15)Cs2xx—O3—Cs1xx71.77 (8)
O2xii—Zr1—O2xiv88.45 (16)P1—O4—Zr2155.0 (2)
O2xiii—Zr1—O2xiv88.45 (16)P1—O4—Cs1xx89.77 (17)
O1x—Zr1—Cs2xv124.63 (10)Zr2—O4—Cs1xx115.22 (14)
O1—Zr1—Cs2xv124.63 (10)P1—O4—Cs2xx96.95 (18)
O1xi—Zr1—Cs2xv124.63 (10)Zr2—O4—Cs2xx90.08 (12)
O2xii—Zr1—Cs2xv53.65 (11)Cs1xx—O4—Cs2xx74.01 (8)
O2xiii—Zr1—Cs2xv53.65 (11)P1—O4—Cs2xix87.36 (17)
O2xiv—Zr1—Cs2xv53.65 (11)Zr2—O4—Cs2xix89.25 (13)
O1x—Zr1—Cs1xvi111.14 (10)Cs1xx—O4—Cs2xix98.25 (11)
O1—Zr1—Cs1xvi48.74 (10)Cs2xx—O4—Cs2xix171.05 (13)
Symmetry codes: (i) x+1, y+1/2, z+1/2; (ii) y+1/2, z+1/2, x+1; (iii) z+1/2, x+1, y+1/2; (iv) z+1/2, x+3/2, y+1; (v) x+3/2, y+1, z+1/2; (vi) y+1, z+1/2, x+3/2; (vii) y+3/2, z+1, x+1/2; (viii) x+1/2, y+3/2, z+1; (ix) z+1, x+1/2, y+3/2; (x) z, x, y; (xi) y, z, x; (xii) x1/2, y+1/2, z; (xiii) y+1/2, z, x1/2; (xiv) z, x1/2, y+1/2; (xv) x1, y1, z1; (xvi) x+1, y1/2, z+1/2; (xvii) x+1/2, y+1, z1/2; (xviii) x1/2, y+1/2, z+1; (xix) x1/2, y+3/2, z+1; (xx) x+3/2, y+1, z1/2; (xxi) x+1, y1/2, z+3/2; (xxii) x+1/2, y+1/2, z.
(CsDyZrP) top
Crystal data top
Dy0.67O12P3Zr1.33·0.991(Cs)·0.676(Cs)Dx = 4.313 Mg m3
Mr = 736.46Mo Kα radiation, λ = 0.71073 Å
Cubic, P213Cell parameters from 5951 reflections
Hall symbol: P 2ac 2ab 3θ = 2.8–29.9°
a = 10.4290 (1) ŵ = 11.34 mm1
V = 1134.30 (2) Å3T = 293 K
Z = 4Tetrahedron, colourless
F(000) = 1320.10.14 × 0.1 × 0.08 mm
Data collection top
XCalibur-3
diffractometer		1108 independent reflections
Radiation source: fine focus sealed tube1068 reflections with I > 2σ(I)
Graphite monochromatorRint = 0.054
ϕ and ω scansθmax = 29.9°, θmin = 2.8°
Absorption correction: multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		h = 1314
Tmin = 0.317, Tmax = 0.433k = 1014
5951 measured reflectionsl = 1413
Refinement top
Refinement on F2Primary atom site location: structure-invariant direct methods
Least-squares matrix: fullSecondary atom site location: difference Fourier map
R[F2 > 2σ(F2)] = 0.031 w = 1/[σ2(Fo2) + (0.0366P)2 + 4.5336P]
where P = (Fo2 + 2Fc2)/3
wR(F2) = 0.070(Δ/σ)max = 0.003
S = 1.16Δρmax = 0.90 e Å3
1108 reflectionsΔρmin = 0.98 e Å3
64 parametersAbsolute structure: Flack H D (1983), Acta Cryst. A39, 876-881
3 restraintsAbsolute structure parameter: 0.01 (4)
Crystal data top
Dy0.67O12P3Zr1.33·0.991(Cs)·0.676(Cs)Z = 4
Mr = 736.46Mo Kα radiation
Cubic, P213µ = 11.34 mm1
a = 10.4290 (1) ÅT = 293 K
V = 1134.30 (2) Å30.14 × 0.1 × 0.08 mm
Data collection top
XCalibur-3
diffractometer		1108 independent reflections
Absorption correction: multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		1068 reflections with I > 2σ(I)
Tmin = 0.317, Tmax = 0.433Rint = 0.054
5951 measured reflections
Refinement top
R[F2 > 2σ(F2)] = 0.0313 restraints
wR(F2) = 0.070Δρmax = 0.90 e Å3
S = 1.16Δρmin = 0.98 e Å3
1108 reflectionsAbsolute structure: Flack H D (1983), Acta Cryst. A39, 876-881
64 parametersAbsolute structure parameter: 0.01 (4)
Special details top

Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell e.s.d.'s are taken into account individually in the estimation of e.s.d.'s in distances, angles and torsion angles; correlations between e.s.d.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s. planes.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
Cs10.71260 (4)0.71260 (4)0.71260 (4)0.0207 (2)0.991 (3)
Cs20.92868 (5)0.92868 (5)0.92868 (5)0.0139 (3)0.676 (3)
Zr10.14374 (5)0.14374 (5)0.14374 (5)0.00979 (17)0.783 (3)
Zr20.41434 (4)0.41434 (4)0.41434 (4)0.01018 (16)0.5499 (9)
Dy10.14374 (5)0.14374 (5)0.14374 (5)0.00979 (17)0.217 (3)
Dy20.41434 (4)0.41434 (4)0.41434 (4)0.01018 (16)0.4500 (9)
P10.45834 (14)0.23137 (15)0.12366 (15)0.0110 (3)
O10.3147 (5)0.2305 (5)0.0857 (5)0.0194 (10)
O20.5367 (5)0.2953 (5)0.0164 (5)0.0213 (10)
O30.5067 (5)0.0947 (5)0.1442 (5)0.0207 (10)
O40.4771 (5)0.3103 (5)0.2470 (5)0.0199 (10)
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Cs10.0207 (2)0.0207 (2)0.0207 (2)0.00246 (16)0.00246 (16)0.00246 (16)
Cs20.0139 (3)0.0139 (3)0.0139 (3)0.00117 (18)0.00117 (18)0.00117 (18)
Zr10.00979 (17)0.00979 (17)0.00979 (17)0.00107 (15)0.00107 (15)0.00107 (15)
Zr20.01018 (16)0.01018 (16)0.01018 (16)0.00082 (13)0.00082 (13)0.00082 (13)
Dy10.00979 (17)0.00979 (17)0.00979 (17)0.00107 (15)0.00107 (15)0.00107 (15)
Dy20.01018 (16)0.01018 (16)0.01018 (16)0.00082 (13)0.00082 (13)0.00082 (13)
P10.0106 (6)0.0126 (7)0.0099 (6)0.0002 (5)0.0008 (5)0.0002 (5)
O10.018 (2)0.022 (2)0.019 (2)0.0018 (17)0.0078 (18)0.0024 (19)
O20.026 (3)0.019 (2)0.019 (2)0.001 (2)0.0105 (19)0.0006 (19)
O30.024 (2)0.019 (2)0.020 (2)0.0069 (19)0.0007 (19)0.0034 (18)
O40.018 (2)0.026 (3)0.015 (2)0.0008 (19)0.0024 (18)0.0039 (18)
Geometric parameters (Å, º) top
Cs1—O1i3.129 (5)Zr2—O3i2.142 (5)
Cs1—O1ii3.129 (5)Zr2—O3ii2.142 (5)
Cs1—O1iii3.129 (5)Zr2—O3iii2.142 (5)
Cs1—O4iv3.264 (5)Zr2—O42.157 (5)
Cs1—O4v3.264 (5)Zr2—O4x2.157 (5)
Cs1—O4vi3.264 (5)Zr2—O4xi2.157 (5)
Cs1—O2iv3.321 (6)Zr2—Cs2xix3.9370 (3)
Cs1—O2vi3.321 (6)Zr2—Cs2xx3.9370 (3)
Cs1—O2v3.321 (6)Zr2—Cs2xxi3.9370 (3)
Cs1—P1vi3.6026 (15)Zr2—Cs1xxi4.6169 (5)
Cs1—P1iv3.6026 (15)Zr2—Cs1xx4.6169 (5)
Cs1—P1v3.6026 (15)Zr2—Cs1xix4.6169 (5)
Cs2—O3iv3.052 (5)P1—O31.527 (5)
Cs2—O3vi3.052 (5)P1—O21.538 (5)
Cs2—O3v3.052 (5)P1—O41.540 (5)
Cs2—O2vii3.144 (5)P1—O11.549 (5)
Cs2—O2viii3.144 (5)P1—Cs2xxi3.6004 (17)
Cs2—O2ix3.144 (5)P1—Cs1xix3.6026 (15)
Cs2—O4iv3.281 (5)P1—Cs2xix3.7807 (17)
Cs2—O4vi3.281 (5)P1—Cs1xvi3.9389 (17)
Cs2—O4v3.281 (5)O1—Cs1xvi3.129 (5)
Cs2—O4vii3.320 (5)O1—Cs2xxi3.751 (5)
Cs2—O4viii3.320 (5)O2—Dy1xxii2.107 (5)
Cs2—O4ix3.320 (5)O2—Zr1xxii2.107 (5)
Zr1—O1x2.089 (5)O2—Cs2xxi3.144 (5)
Zr1—O12.089 (5)O2—Cs1xix3.321 (6)
Zr1—O1xi2.089 (5)O2—Cs1xvi3.634 (5)
Zr1—O2xii2.107 (5)O3—Dy2xvi2.142 (5)
Zr1—O2xiii2.107 (5)O3—Zr2xvi2.142 (5)
Zr1—O2xiv2.107 (5)O3—Cs2xix3.052 (5)
Zr1—Cs2xv3.8848 (12)O3—Cs1xix3.621 (5)
Zr1—Cs1xvi4.0708 (4)O4—Cs1xix3.264 (5)
Zr1—Cs1xvii4.0708 (4)O4—Cs2xix3.281 (5)
Zr1—Cs1xviii4.0708 (4)O4—Cs2xxi3.320 (5)
O1i—Cs1—O1ii88.52 (13)O1xi—Zr1—Cs1xvi132.13 (14)
O1i—Cs1—O1iii88.52 (13)O2xii—Zr1—Cs1xvi131.34 (14)
O1ii—Cs1—O1iii88.52 (13)O2xiii—Zr1—Cs1xvi62.94 (15)
O1i—Cs1—O4iv101.76 (12)O2xiv—Zr1—Cs1xvi54.42 (15)
O1ii—Cs1—O4iv166.44 (12)Cs2xv—Zr1—Cs1xvi77.718 (12)
O1iii—Cs1—O4iv83.00 (13)O1x—Zr1—Cs1xvii132.13 (14)
O1i—Cs1—O4v166.44 (12)O1—Zr1—Cs1xvii110.58 (13)
O1ii—Cs1—O4v83.00 (13)O1xi—Zr1—Cs1xvii49.07 (14)
O1iii—Cs1—O4v101.76 (12)O2xii—Zr1—Cs1xvii62.94 (15)
O4iv—Cs1—O4v88.38 (14)O2xiii—Zr1—Cs1xvii54.42 (15)
O1i—Cs1—O4vi83.00 (13)O2xiv—Zr1—Cs1xvii131.34 (14)
O1ii—Cs1—O4vi101.76 (12)Cs2xv—Zr1—Cs1xvii77.718 (12)
O1iii—Cs1—O4vi166.44 (12)Cs1xvi—Zr1—Cs1xvii115.602 (8)
O4iv—Cs1—O4vi88.38 (14)O1x—Zr1—Cs1xviii49.07 (14)
O4v—Cs1—O4vi88.38 (14)O1—Zr1—Cs1xviii132.13 (14)
O1i—Cs1—O2iv57.36 (12)O1xi—Zr1—Cs1xviii110.58 (13)
O1ii—Cs1—O2iv144.79 (13)O2xii—Zr1—Cs1xviii54.42 (15)
O1iii—Cs1—O2iv82.65 (12)O2xiii—Zr1—Cs1xviii131.34 (14)
O4iv—Cs1—O2iv44.40 (12)O2xiv—Zr1—Cs1xviii62.94 (15)
O4v—Cs1—O2iv132.15 (13)Cs2xv—Zr1—Cs1xviii77.718 (12)
O4vi—Cs1—O2iv83.86 (12)Cs1xvi—Zr1—Cs1xviii115.602 (8)
O1i—Cs1—O2vi82.65 (12)Cs1xvii—Zr1—Cs1xviii115.602 (8)
O1ii—Cs1—O2vi57.36 (12)O3i—Zr2—O3ii91.29 (19)
O1iii—Cs1—O2vi144.79 (13)O3i—Zr2—O3iii91.29 (19)
O4iv—Cs1—O2vi132.15 (13)O3ii—Zr2—O3iii91.29 (19)
O4v—Cs1—O2vi83.86 (12)O3i—Zr2—O4172.1 (2)
O4vi—Cs1—O2vi44.40 (12)O3ii—Zr2—O484.31 (19)
O2iv—Cs1—O2vi119.30 (3)O3iii—Zr2—O495.4 (2)
O1i—Cs1—O2v144.79 (13)O3i—Zr2—O4x95.4 (2)
O1ii—Cs1—O2v82.65 (12)O3ii—Zr2—O4x172.1 (2)
O1iii—Cs1—O2v57.36 (12)O3iii—Zr2—O4x84.31 (19)
O4iv—Cs1—O2v83.86 (12)O4—Zr2—O4x89.50 (18)
O4v—Cs1—O2v44.40 (12)O3i—Zr2—O4xi84.31 (19)
O4vi—Cs1—O2v132.15 (13)O3ii—Zr2—O4xi95.4 (2)
O2iv—Cs1—O2v119.30 (3)O3iii—Zr2—O4xi172.1 (2)
O2vi—Cs1—O2v119.30 (3)O4—Zr2—O4xi89.50 (18)
O1i—Cs1—P1vi94.64 (9)O4x—Zr2—O4xi89.50 (18)
O1ii—Cs1—P1vi79.70 (9)O3i—Zr2—Cs2xix115.75 (14)
O1iii—Cs1—P1vi167.70 (9)O3ii—Zr2—Cs2xix50.30 (14)
O4iv—Cs1—P1vi107.89 (10)O3iii—Zr2—Cs2xix130.46 (14)
O4v—Cs1—P1vi73.49 (9)O4—Zr2—Cs2xix56.45 (14)
O4vi—Cs1—P1vi25.30 (9)O4x—Zr2—Cs2xix129.15 (13)
O2iv—Cs1—P1vi109.05 (9)O4xi—Zr2—Cs2xix57.48 (14)
O2vi—Cs1—P1vi25.24 (9)O3i—Zr2—Cs2xx50.30 (14)
O2v—Cs1—P1vi116.93 (9)O3ii—Zr2—Cs2xx130.46 (14)
O1i—Cs1—P1iv79.70 (9)O3iii—Zr2—Cs2xx115.75 (14)
O1ii—Cs1—P1iv167.70 (10)O4—Zr2—Cs2xx129.15 (13)
O1iii—Cs1—P1iv94.64 (9)O4x—Zr2—Cs2xx57.48 (14)
O4iv—Cs1—P1iv25.30 (9)O4xi—Zr2—Cs2xx56.45 (14)
O4v—Cs1—P1iv107.89 (10)Cs2xix—Zr2—Cs2xx113.363 (8)
O4vi—Cs1—P1iv73.49 (9)O3i—Zr2—Cs2xxi130.46 (14)
O2iv—Cs1—P1iv25.24 (9)O3ii—Zr2—Cs2xxi115.75 (14)
O2vi—Cs1—P1iv116.93 (9)O3iii—Zr2—Cs2xxi50.30 (13)
O2v—Cs1—P1iv109.05 (9)O4—Zr2—Cs2xxi57.48 (14)
P1vi—Cs1—P1iv97.62 (4)O4x—Zr2—Cs2xxi56.45 (14)
O1i—Cs1—P1v167.70 (9)O4xi—Zr2—Cs2xxi129.15 (13)
O1ii—Cs1—P1v94.64 (9)Cs2xix—Zr2—Cs2xxi113.363 (8)
O1iii—Cs1—P1v79.70 (9)Cs2xx—Zr2—Cs2xxi113.363 (8)
O4iv—Cs1—P1v73.49 (9)O3i—Zr2—Cs1xxi78.35 (14)
O4v—Cs1—P1v25.30 (9)O3ii—Zr2—Cs1xxi138.64 (14)
O4vi—Cs1—P1v107.89 (10)O3iii—Zr2—Cs1xxi49.71 (14)
O2iv—Cs1—P1v116.93 (9)O4—Zr2—Cs1xxi109.28 (14)
O2vi—Cs1—P1v109.05 (9)O4x—Zr2—Cs1xxi39.75 (13)
O2v—Cs1—P1v25.24 (9)O4xi—Zr2—Cs1xxi122.66 (14)
P1vi—Cs1—P1v97.62 (4)Cs2xix—Zr2—Cs1xxi165.034 (16)
P1iv—Cs1—P1v97.62 (4)Cs2xx—Zr2—Cs1xxi70.923 (13)
O3iv—Cs2—O3vi98.89 (13)Cs2xxi—Zr2—Cs1xxi53.582 (15)
O3iv—Cs2—O3v98.89 (13)O3i—Zr2—Cs1xx49.71 (14)
O3vi—Cs2—O3v98.89 (13)O3ii—Zr2—Cs1xx78.35 (14)
O3iv—Cs2—O2vii99.86 (13)O3iii—Zr2—Cs1xx138.64 (14)
O3vi—Cs2—O2vii99.25 (14)O4—Zr2—Cs1xx122.66 (14)
O3v—Cs2—O2vii151.46 (14)O4x—Zr2—Cs1xx109.28 (14)
O3iv—Cs2—O2viii151.46 (14)O4xi—Zr2—Cs1xx39.75 (13)
O3vi—Cs2—O2viii99.86 (13)Cs2xix—Zr2—Cs1xx70.923 (13)
O3v—Cs2—O2viii99.25 (14)Cs2xx—Zr2—Cs1xx53.582 (15)
O2vii—Cs2—O2viii55.92 (15)Cs2xxi—Zr2—Cs1xx165.034 (16)
O3iv—Cs2—O2ix99.25 (14)Cs1xxi—Zr2—Cs1xx119.668 (2)
O3vi—Cs2—O2ix151.46 (14)O3i—Zr2—Cs1xix138.64 (14)
O3v—Cs2—O2ix99.86 (13)O3ii—Zr2—Cs1xix49.71 (14)
O2vii—Cs2—O2ix55.92 (15)O3iii—Zr2—Cs1xix78.35 (14)
O2viii—Cs2—O2ix55.92 (15)O4—Zr2—Cs1xix39.75 (13)
O3iv—Cs2—O4iv46.51 (13)O4x—Zr2—Cs1xix122.66 (14)
O3vi—Cs2—O4iv114.36 (14)O4xi—Zr2—Cs1xix109.28 (14)
O3v—Cs2—O4iv54.07 (13)Cs2xix—Zr2—Cs1xix53.582 (15)
O2vii—Cs2—O4iv133.90 (13)Cs2xx—Zr2—Cs1xix165.034 (16)
O2viii—Cs2—O4iv138.28 (14)Cs2xxi—Zr2—Cs1xix70.923 (13)
O2ix—Cs2—O4iv94.09 (13)Cs1xxi—Zr2—Cs1xix119.668 (2)
O3iv—Cs2—O4vi54.07 (13)Cs1xx—Zr2—Cs1xix119.668 (2)
O3vi—Cs2—O4vi46.51 (13)O3—P1—O2109.4 (3)
O3v—Cs2—O4vi114.36 (14)O3—P1—O4109.8 (3)
O2vii—Cs2—O4vi94.09 (13)O2—P1—O4108.0 (3)
O2viii—Cs2—O4vi133.90 (13)O3—P1—O1110.5 (3)
O2ix—Cs2—O4vi138.28 (14)O2—P1—O1109.3 (3)
O4iv—Cs2—O4vi87.80 (13)O4—P1—O1109.9 (3)
O3iv—Cs2—O4v114.36 (14)O3—P1—Cs2xxi165.6 (2)
O3vi—Cs2—O4v54.07 (13)O2—P1—Cs2xxi60.5 (2)
O3v—Cs2—O4v46.51 (13)O4—P1—Cs2xxi67.1 (2)
O2vii—Cs2—O4v138.28 (14)O1—P1—Cs2xxi83.33 (19)
O2viii—Cs2—O4v94.09 (13)O3—P1—Cs1xix78.5 (2)
O2ix—Cs2—O4v133.90 (13)O2—P1—Cs1xix67.1 (2)
O4iv—Cs2—O4v87.80 (13)O4—P1—Cs1xix64.97 (19)
O4vi—Cs2—O4v87.80 (13)O1—P1—Cs1xix171.0 (2)
O3iv—Cs2—O4vii59.71 (13)Cs2xxi—P1—Cs1xix87.78 (4)
O3vi—Cs2—O4vii85.57 (13)O3—P1—Cs2xix50.7 (2)
O3v—Cs2—O4vii158.60 (13)O2—P1—Cs2xix129.6 (2)
O2vii—Cs2—O4vii45.19 (13)O4—P1—Cs2xix59.6 (2)
O2viii—Cs2—O4vii100.58 (13)O1—P1—Cs2xix120.9 (2)
O2ix—Cs2—O4vii84.78 (13)Cs2xxi—P1—Cs2xix126.09 (4)
O4iv—Cs2—O4vii104.985 (15)Cs1xix—P1—Cs2xix63.77 (3)
O4vi—Cs2—O4vii54.78 (18)O3—P1—Cs1xvi103.2 (2)
O4v—Cs2—O4vii138.97 (9)O2—P1—Cs1xvi67.3 (2)
O3iv—Cs2—O4viii158.60 (13)O4—P1—Cs1xvi145.9 (2)
O3vi—Cs2—O4viii59.71 (13)O1—P1—Cs1xvi48.3 (2)
O3v—Cs2—O4viii85.57 (13)Cs2xxi—P1—Cs1xvi82.82 (3)
O2vii—Cs2—O4viii84.78 (13)Cs1xix—P1—Cs1xvi131.95 (4)
O2viii—Cs2—O4viii45.19 (13)Cs2xix—P1—Cs1xvi150.25 (5)
O2ix—Cs2—O4viii100.58 (13)P1—O1—Zr1138.9 (3)
O4iv—Cs2—O4viii138.97 (9)P1—O1—Cs1xvi110.0 (3)
O4vi—Cs2—O4viii104.985 (15)Zr1—O1—Cs1xvi100.63 (17)
O4v—Cs2—O4viii54.78 (18)P1—O1—Cs2xxi72.45 (19)
O4vii—Cs2—O4viii114.31 (7)Zr1—O1—Cs2xxi133.8 (2)
O3iv—Cs2—O4ix85.57 (13)Cs1xvi—O1—Cs2xxi92.62 (12)
O3vi—Cs2—O4ix158.60 (13)P1—O2—Dy1xxii171.6 (3)
O3v—Cs2—O4ix59.71 (13)P1—O2—Zr1xxii171.6 (3)
O2vii—Cs2—O4ix100.58 (13)P1—O2—Cs2xxi94.3 (2)
O2viii—Cs2—O4ix84.78 (13)Dy1xxii—O2—Cs2xxi93.33 (17)
O2ix—Cs2—O4ix45.19 (13)Zr1xxii—O2—Cs2xxi93.33 (17)
O4iv—Cs2—O4ix54.78 (18)P1—O2—Cs1xix87.7 (2)
O4vi—Cs2—O4ix138.97 (9)Dy1xxii—O2—Cs1xix94.52 (18)
O4v—Cs2—O4ix104.985 (15)Zr1xxii—O2—Cs1xix94.52 (18)
O4vii—Cs2—O4ix114.31 (7)Cs2xxi—O2—Cs1xix101.10 (14)
O4viii—Cs2—O4ix114.31 (7)P1—O2—Cs1xvi89.7 (2)
O1x—Zr1—O190.2 (2)Dy1xxii—O2—Cs1xvi85.98 (16)
O1x—Zr1—O1xi90.2 (2)Zr1xxii—O2—Cs1xvi85.98 (16)
O1—Zr1—O1xi90.2 (2)Cs2xxi—O2—Cs1xvi94.63 (14)
O1x—Zr1—O2xii95.3 (2)Cs1xix—O2—Cs1xvi164.19 (17)
O1—Zr1—O2xii173.4 (2)P1—O3—Dy2xvi155.0 (3)
O1xi—Zr1—O2xii86.12 (19)P1—O3—Zr2xvi155.0 (3)
O1x—Zr1—O2xiii173.4 (2)P1—O3—Cs2xix106.5 (3)
O1—Zr1—O2xiii86.12 (19)Dy2xvi—O3—Cs2xix97.01 (17)
O1xi—Zr1—O2xiii95.3 (2)Zr2xvi—O3—Cs2xix97.01 (17)
O2xii—Zr1—O2xiii88.8 (2)P1—O3—Cs1xix77.1 (2)
O1x—Zr1—O2xiv86.12 (19)Dy2xvi—O3—Cs1xix103.46 (18)
O1—Zr1—O2xiv95.3 (2)Zr2xvi—O3—Cs1xix103.46 (18)
O1xi—Zr1—O2xiv173.4 (2)Cs2xix—O3—Cs1xix71.01 (11)
O2xii—Zr1—O2xiv88.8 (2)P1—O4—Zr2155.0 (3)
O2xiii—Zr1—O2xiv88.8 (2)P1—O4—Cs1xix89.7 (2)
O1x—Zr1—Cs2xv125.13 (14)Zr2—O4—Cs1xix115.25 (17)
O1—Zr1—Cs2xv125.13 (14)P1—O4—Cs2xix96.6 (2)
O1xi—Zr1—Cs2xv125.13 (14)Zr2—O4—Cs2xix90.33 (16)
O2xii—Zr1—Cs2xv53.89 (14)Cs1xix—O4—Cs2xix73.21 (11)
O2xiii—Zr1—Cs2xv53.89 (14)P1—O4—Cs2xxi87.6 (2)
O2xiv—Zr1—Cs2xv53.89 (14)Zr2—O4—Cs2xxi89.30 (16)
O1x—Zr1—Cs1xvi110.58 (13)Cs1xix—O4—Cs2xxi98.64 (14)
O1—Zr1—Cs1xvi49.07 (14)Cs2xix—O4—Cs2xxi170.76 (17)
Symmetry codes: (i) z+1/2, x+1, y+1/2; (ii) y+1/2, z+1/2, x+1; (iii) x+1, y+1/2, z+1/2; (iv) z+1/2, x+3/2, y+1; (v) x+3/2, y+1, z+1/2; (vi) y+1, z+1/2, x+3/2; (vii) z+1, x+1/2, y+3/2; (viii) y+3/2, z+1, x+1/2; (ix) x+1/2, y+3/2, z+1; (x) z, x, y; (xi) y, z, x; (xii) z, x1/2, y+1/2; (xiii) y+1/2, z, x1/2; (xiv) x1/2, y+1/2, z; (xv) x1, y1, z1; (xvi) x+1, y1/2, z+1/2; (xvii) x1/2, y+1/2, z+1; (xviii) x+1/2, y+1, z1/2; (xix) x+3/2, y+1, z1/2; (xx) x+1, y1/2, z+3/2; (xxi) x1/2, y+3/2, z+1; (xxii) x+1/2, y+1/2, z.
(CsHoZrP) top
Crystal data top
Ho0.745O12P3Zr1.255·0.995(Cs)·0.75(Cs)Dx = 4.407 Mg m3
Mr = 754.40Mo Kα radiation, λ = 0.71073 Å
Cubic, P213Cell parameters from 4066 reflections
Hall symbol: P 2ac 2ab 3θ = 2.8–29.9°
a = 10.4372 (1) ŵ = 12.29 mm1
V = 1136.98 (2) Å3T = 293 K
Z = 4Tetrahedron, pale yellow
F(000) = 1348.70.12 × 0.1 × 0.09 mm
Data collection top
XCalibur-3
diffractometer		1108 independent reflections
Radiation source: fine focus sealed tube1043 reflections with I > 2σ(I)
Graphite monochromatorRint = 0.032
ϕ and ω scansθmax = 29.9°, θmin = 2.8°
Absorption correction: multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		h = 1410
Tmin = 0.319, Tmax = 0.403k = 1410
4066 measured reflectionsl = 1114
Refinement top
Refinement on F2Secondary atom site location: difference Fourier map
Least-squares matrix: full w = 1/[σ2(Fo2) + (0.0106P)2 + 3.0354P]
where P = (Fo2 + 2Fc2)/3
R[F2 > 2σ(F2)] = 0.024(Δ/σ)max = 0.001
wR(F2) = 0.043Δρmax = 0.75 e Å3
S = 1.21Δρmin = 0.68 e Å3
1108 reflectionsExtinction correction: SHELXL, Fc*=kFc[1+0.001xFc2λ3/sin(2θ)]-1/4
65 parametersExtinction coefficient: 0.00062 (15)
3 restraintsAbsolute structure: Flack H D (1983), Acta Cryst. A39, 876-881
Primary atom site location: structure-invariant direct methodsAbsolute structure parameter: 0.00 (3)
Crystal data top
Ho0.745O12P3Zr1.255·0.995(Cs)·0.75(Cs)Z = 4
Mr = 754.40Mo Kα radiation
Cubic, P213µ = 12.29 mm1
a = 10.4372 (1) ÅT = 293 K
V = 1136.98 (2) Å30.12 × 0.1 × 0.09 mm
Data collection top
XCalibur-3
diffractometer		1108 independent reflections
Absorption correction: multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		1043 reflections with I > 2σ(I)
Tmin = 0.319, Tmax = 0.403Rint = 0.032
4066 measured reflections
Refinement top
R[F2 > 2σ(F2)] = 0.0243 restraints
wR(F2) = 0.043Δρmax = 0.75 e Å3
S = 1.21Δρmin = 0.68 e Å3
1108 reflectionsAbsolute structure: Flack H D (1983), Acta Cryst. A39, 876-881
65 parametersAbsolute structure parameter: 0.00 (3)
Special details top

Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell e.s.d.'s are taken into account individually in the estimation of e.s.d.'s in distances, angles and torsion angles; correlations between e.s.d.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s. planes.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
Cs10.71176 (4)0.71176 (4)0.71176 (4)0.01936 (19)0.995 (3)
Cs20.92881 (4)0.92881 (4)0.92881 (4)0.0129 (2)0.751 (3)
Zr10.14425 (4)0.14425 (4)0.14425 (4)0.00823 (16)0.7392 (9)
Zr20.41442 (3)0.41442 (3)0.41442 (3)0.00815 (13)0.515 (3)
Ho10.14425 (4)0.14425 (4)0.14425 (4)0.00823 (16)0.2607 (9)
Ho20.41442 (3)0.41442 (3)0.41442 (3)0.00815 (13)0.485 (3)
P10.45876 (13)0.23152 (14)0.12358 (13)0.0090 (3)
O10.3164 (4)0.2313 (4)0.0849 (4)0.0177 (8)
O20.5371 (4)0.2951 (4)0.0166 (4)0.0190 (8)
O30.5070 (4)0.0947 (4)0.1444 (4)0.0184 (8)
O40.4772 (4)0.3106 (4)0.2469 (4)0.0185 (10)
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Cs10.01936 (19)0.01936 (19)0.01936 (19)0.00187 (15)0.00187 (15)0.00187 (15)
Cs20.0129 (2)0.0129 (2)0.0129 (2)0.00114 (16)0.00114 (16)0.00114 (16)
Zr10.00823 (16)0.00823 (16)0.00823 (16)0.00081 (14)0.00081 (14)0.00081 (14)
Zr20.00815 (13)0.00815 (13)0.00815 (13)0.00063 (12)0.00063 (12)0.00063 (12)
Ho10.00823 (16)0.00823 (16)0.00823 (16)0.00081 (14)0.00081 (14)0.00081 (14)
Ho20.00815 (13)0.00815 (13)0.00815 (13)0.00063 (12)0.00063 (12)0.00063 (12)
P10.0085 (6)0.0110 (6)0.0074 (6)0.0007 (5)0.0011 (5)0.0000 (5)
O10.014 (2)0.023 (2)0.016 (2)0.0005 (15)0.0058 (16)0.0010 (18)
O20.024 (2)0.018 (2)0.016 (2)0.0018 (17)0.0103 (17)0.0015 (17)
O30.019 (2)0.016 (2)0.020 (2)0.0042 (17)0.0001 (17)0.0045 (17)
O40.018 (2)0.024 (2)0.0133 (19)0.0036 (17)0.0012 (16)0.0039 (16)
Geometric parameters (Å, º) top
Cs1—O1i3.117 (4)Zr2—O3iii2.143 (4)
Cs1—O1ii3.117 (4)Zr2—O3ii2.143 (4)
Cs1—O1iii3.117 (4)Zr2—O3i2.143 (4)
Cs1—O4iv3.275 (4)Zr2—O4xi2.159 (4)
Cs1—O4v3.275 (4)Zr2—O4x2.159 (4)
Cs1—O4vi3.275 (4)Zr2—O42.159 (4)
Cs1—O2iv3.320 (4)Zr2—Cs2xix3.9412 (3)
Cs1—O2v3.320 (4)Zr2—Cs2xx3.9412 (3)
Cs1—O2vi3.320 (5)Zr2—Cs2xxi3.9412 (3)
Cs1—P1iv3.6087 (14)Zr2—Cs1xxi4.6294 (4)
Cs1—P1v3.6087 (14)Zr2—Cs1xix4.6294 (4)
Cs1—P1vi3.6087 (14)Zr2—Cs1xx4.6294 (4)
Cs2—O3iv3.053 (4)P1—O31.529 (4)
Cs2—O3v3.053 (4)P1—O21.535 (4)
Cs2—O3vi3.053 (4)P1—O11.540 (4)
Cs2—O2vii3.147 (4)P1—O41.541 (4)
Cs2—O2viii3.147 (4)P1—Cs2xxi3.6008 (15)
Cs2—O2ix3.147 (4)P1—Cs1xix3.6087 (14)
Cs2—O4iv3.288 (4)P1—Cs2xix3.7849 (14)
Cs2—O4v3.288 (4)P1—Cs1xvii3.9320 (14)
Cs2—O4vi3.288 (4)O1—Cs1xvii3.117 (4)
Cs2—O4vii3.319 (4)O1—Cs2xxi3.740 (4)
Cs2—O4viii3.319 (4)O2—Ho1xxii2.114 (4)
Cs2—O4ix3.319 (4)O2—Zr1xxii2.114 (4)
Zr1—O1x2.106 (4)O2—Cs2xxi3.147 (4)
Zr1—O12.106 (4)O2—Cs1xix3.320 (4)
Zr1—O1xi2.106 (4)O2—Cs1xvii3.631 (4)
Zr1—O2xii2.114 (4)O3—Ho2xvii2.143 (4)
Zr1—O2xiii2.114 (4)O3—Zr2xvii2.143 (4)
Zr1—O2xiv2.114 (4)O3—Cs2xix3.053 (4)
Zr1—Cs2xv3.8948 (10)O3—Cs1xix3.632 (4)
Zr1—Cs1xvi4.0696 (3)O4—Cs1xix3.275 (4)
Zr1—Cs1xvii4.0696 (3)O4—Cs2xix3.288 (4)
Zr1—Cs1xviii4.0696 (3)O4—Cs2xxi3.319 (4)
O1i—Cs1—O1ii88.71 (11)O1xi—Zr1—Cs1xvi110.77 (11)
O1i—Cs1—O1iii88.71 (11)O2xii—Zr1—Cs1xvi62.87 (12)
O1ii—Cs1—O1iii88.71 (11)O2xiii—Zr1—Cs1xvi54.44 (12)
O1i—Cs1—O4iv166.07 (10)O2xiv—Zr1—Cs1xvi131.15 (12)
O1ii—Cs1—O4iv82.82 (11)Cs2xv—Zr1—Cs1xvi77.644 (10)
O1iii—Cs1—O4iv102.07 (10)O1x—Zr1—Cs1xvii110.77 (11)
O1i—Cs1—O4v102.07 (10)O1—Zr1—Cs1xvii48.84 (11)
O1ii—Cs1—O4v166.07 (10)O1xi—Zr1—Cs1xvii132.10 (11)
O1iii—Cs1—O4v82.82 (11)O2xii—Zr1—Cs1xvii54.44 (12)
O4iv—Cs1—O4v88.15 (11)O2xiii—Zr1—Cs1xvii131.15 (12)
O1i—Cs1—O4vi82.82 (11)O2xiv—Zr1—Cs1xvii62.87 (12)
O1ii—Cs1—O4vi102.07 (10)Cs2xv—Zr1—Cs1xvii77.644 (10)
O1iii—Cs1—O4vi166.07 (10)Cs1xvi—Zr1—Cs1xvii115.551 (7)
O4iv—Cs1—O4vi88.15 (11)O1x—Zr1—Cs1xviii132.10 (11)
O4v—Cs1—O4vi88.15 (11)O1—Zr1—Cs1xviii110.77 (11)
O1i—Cs1—O2iv145.31 (10)O1xi—Zr1—Cs1xviii48.84 (11)
O1ii—Cs1—O2iv82.48 (10)O2xii—Zr1—Cs1xviii131.15 (12)
O1iii—Cs1—O2iv57.75 (10)O2xiii—Zr1—Cs1xviii62.87 (12)
O4iv—Cs1—O2iv44.32 (10)O2xiv—Zr1—Cs1xviii54.44 (12)
O4v—Cs1—O2iv83.65 (10)Cs2xv—Zr1—Cs1xviii77.644 (10)
O4vi—Cs1—O2iv131.81 (10)Cs1xvi—Zr1—Cs1xviii115.551 (7)
O1i—Cs1—O2v57.75 (10)Cs1xvii—Zr1—Cs1xviii115.551 (7)
O1ii—Cs1—O2v145.31 (10)O3iii—Zr2—O3ii91.43 (16)
O1iii—Cs1—O2v82.48 (10)O3iii—Zr2—O3i91.43 (16)
O4iv—Cs1—O2v131.81 (10)O3ii—Zr2—O3i91.43 (16)
O4v—Cs1—O2v44.32 (10)O3iii—Zr2—O4xi84.24 (15)
O4vi—Cs1—O2v83.65 (10)O3ii—Zr2—O4xi172.07 (16)
O2iv—Cs1—O2v119.21 (2)O3i—Zr2—O4xi95.31 (16)
O1i—Cs1—O2vi82.48 (10)O3iii—Zr2—O4x95.31 (16)
O1ii—Cs1—O2vi57.75 (10)O3ii—Zr2—O4x84.24 (15)
O1iii—Cs1—O2vi145.31 (10)O3i—Zr2—O4x172.07 (16)
O4iv—Cs1—O2vi83.65 (10)O4xi—Zr2—O4x89.53 (15)
O4v—Cs1—O2vi131.81 (10)O3iii—Zr2—O4172.07 (16)
O4vi—Cs1—O2vi44.32 (10)O3ii—Zr2—O495.31 (16)
O2iv—Cs1—O2vi119.21 (2)O3i—Zr2—O484.24 (15)
O2v—Cs1—O2vi119.21 (2)O4xi—Zr2—O489.53 (15)
O1i—Cs1—P1iv168.17 (8)O4x—Zr2—O489.53 (15)
O1ii—Cs1—P1iv94.40 (8)O3iii—Zr2—Cs2xix115.68 (11)
O1iii—Cs1—P1iv79.96 (8)O3ii—Zr2—Cs2xix130.56 (11)
O4iv—Cs1—P1iv25.27 (7)O3i—Zr2—Cs2xix50.24 (12)
O4v—Cs1—P1iv73.30 (8)O4xi—Zr2—Cs2xix57.36 (12)
O4vi—Cs1—P1iv107.60 (8)O4x—Zr2—Cs2xix129.15 (10)
O2iv—Cs1—P1iv25.15 (7)O4—Zr2—Cs2xix56.54 (12)
O2v—Cs1—P1iv116.71 (7)O3iii—Zr2—Cs2xx50.24 (12)
O2vi—Cs1—P1iv108.82 (8)O3ii—Zr2—Cs2xx115.68 (11)
O1i—Cs1—P1v79.96 (8)O3i—Zr2—Cs2xx130.56 (11)
O1ii—Cs1—P1v168.17 (8)O4xi—Zr2—Cs2xx56.54 (12)
O1iii—Cs1—P1v94.40 (8)O4x—Zr2—Cs2xx57.36 (12)
O4iv—Cs1—P1v107.60 (8)O4—Zr2—Cs2xx129.15 (11)
O4v—Cs1—P1v25.27 (7)Cs2xix—Zr2—Cs2xx113.340 (7)
O4vi—Cs1—P1v73.30 (8)O3iii—Zr2—Cs2xxi130.56 (11)
O2iv—Cs1—P1v108.82 (8)O3ii—Zr2—Cs2xxi50.24 (12)
O2v—Cs1—P1v25.15 (7)O3i—Zr2—Cs2xxi115.68 (11)
O2vi—Cs1—P1v116.71 (7)O4xi—Zr2—Cs2xxi129.15 (10)
P1iv—Cs1—P1v97.38 (3)O4x—Zr2—Cs2xxi56.54 (12)
O1i—Cs1—P1vi94.40 (8)O4—Zr2—Cs2xxi57.36 (12)
O1ii—Cs1—P1vi79.96 (8)Cs2xix—Zr2—Cs2xxi113.340 (7)
O1iii—Cs1—P1vi168.17 (8)Cs2xx—Zr2—Cs2xxi113.340 (7)
O4iv—Cs1—P1vi73.30 (8)O3iii—Zr2—Cs1xxi78.25 (11)
O4v—Cs1—P1vi107.60 (8)O3ii—Zr2—Cs1xxi49.70 (11)
O4vi—Cs1—P1vi25.27 (7)O3i—Zr2—Cs1xxi138.73 (12)
O2iv—Cs1—P1vi116.71 (7)O4xi—Zr2—Cs1xxi122.66 (12)
O2v—Cs1—P1vi108.82 (8)O4x—Zr2—Cs1xxi39.76 (10)
O2vi—Cs1—P1vi25.15 (7)O4—Zr2—Cs1xxi109.34 (12)
P1iv—Cs1—P1vi97.38 (3)Cs2xix—Zr2—Cs1xxi165.148 (13)
P1v—Cs1—P1vi97.38 (3)Cs2xx—Zr2—Cs1xxi70.773 (11)
O3iv—Cs2—O3v98.79 (10)Cs2xxi—Zr2—Cs1xxi53.767 (13)
O3iv—Cs2—O3vi98.79 (10)O3iii—Zr2—Cs1xix138.73 (12)
O3v—Cs2—O3vi98.79 (10)O3ii—Zr2—Cs1xix78.25 (11)
O3iv—Cs2—O2vii99.37 (11)O3i—Zr2—Cs1xix49.70 (11)
O3v—Cs2—O2vii151.57 (11)O4xi—Zr2—Cs1xix109.34 (12)
O3vi—Cs2—O2vii99.84 (11)O4x—Zr2—Cs1xix122.66 (12)
O3iv—Cs2—O2viii99.84 (11)O4—Zr2—Cs1xix39.76 (10)
O3v—Cs2—O2viii99.37 (11)Cs2xix—Zr2—Cs1xix53.767 (13)
O3vi—Cs2—O2viii151.57 (11)Cs2xx—Zr2—Cs1xix165.148 (13)
O2vii—Cs2—O2viii55.98 (12)Cs2xxi—Zr2—Cs1xix70.773 (11)
O3iv—Cs2—O2ix151.57 (11)Cs1xxi—Zr2—Cs1xix119.6600 (10)
O3v—Cs2—O2ix99.84 (11)O3iii—Zr2—Cs1xx49.70 (11)
O3vi—Cs2—O2ix99.37 (11)O3ii—Zr2—Cs1xx138.73 (12)
O2vii—Cs2—O2ix55.98 (12)O3i—Zr2—Cs1xx78.25 (11)
O2viii—Cs2—O2ix55.98 (12)O4xi—Zr2—Cs1xx39.76 (10)
O3iv—Cs2—O4iv46.51 (11)O4x—Zr2—Cs1xx109.34 (12)
O3v—Cs2—O4iv114.22 (11)O4—Zr2—Cs1xx122.66 (12)
O3vi—Cs2—O4iv53.98 (11)Cs2xix—Zr2—Cs1xx70.773 (11)
O2vii—Cs2—O4iv94.12 (10)Cs2xx—Zr2—Cs1xx53.767 (13)
O2viii—Cs2—O4iv133.88 (11)Cs2xxi—Zr2—Cs1xx165.148 (13)
O2ix—Cs2—O4iv138.40 (11)Cs1xxi—Zr2—Cs1xx119.6600 (10)
O3iv—Cs2—O4v53.98 (11)Cs1xix—Zr2—Cs1xx119.6600 (10)
O3v—Cs2—O4v46.51 (11)O3—P1—O2109.4 (2)
O3vi—Cs2—O4v114.22 (11)O3—P1—O1110.7 (2)
O2vii—Cs2—O4v138.40 (11)O2—P1—O1108.9 (2)
O2viii—Cs2—O4v94.12 (10)O3—P1—O4109.9 (2)
O2ix—Cs2—O4v133.88 (11)O2—P1—O4108.0 (2)
O4iv—Cs2—O4v87.71 (10)O1—P1—O4109.9 (2)
O3iv—Cs2—O4vi114.22 (11)O3—P1—Cs2xxi165.77 (17)
O3v—Cs2—O4vi53.98 (10)O2—P1—Cs2xxi60.66 (16)
O3vi—Cs2—O4vi46.51 (11)O1—P1—Cs2xxi82.99 (16)
O2vii—Cs2—O4vi133.88 (11)O4—P1—Cs2xxi67.06 (17)
O2viii—Cs2—O4vi138.40 (11)O3—P1—Cs1xix78.66 (16)
O2ix—Cs2—O4vi94.12 (10)O2—P1—Cs1xix66.85 (17)
O4iv—Cs2—O4vi87.71 (10)O1—P1—Cs1xix170.65 (17)
O4v—Cs2—O4vi87.71 (10)O4—P1—Cs1xix65.16 (16)
O3iv—Cs2—O4vii85.62 (10)Cs2xxi—P1—Cs1xix87.70 (3)
O3v—Cs2—O4vii158.49 (11)O3—P1—Cs2xix50.64 (17)
O3vi—Cs2—O4vii59.70 (11)O2—P1—Cs2xix129.66 (18)
O2vii—Cs2—O4vii45.17 (11)O1—P1—Cs2xix121.27 (17)
O2viii—Cs2—O4vii100.59 (10)O4—P1—Cs2xix59.68 (17)
O2ix—Cs2—O4vii84.88 (11)Cs2xxi—P1—Cs2xix126.16 (4)
O4iv—Cs2—O4vii54.81 (14)Cs1xix—P1—Cs2xix64.05 (3)
O4v—Cs2—O4vii138.92 (8)O3—P1—Cs1xvii103.08 (17)
O4vi—Cs2—O4vii104.969 (12)O2—P1—Cs1xvii67.44 (17)
O3iv—Cs2—O4viii59.70 (11)O1—P1—Cs1xvii47.91 (16)
O3v—Cs2—O4viii85.62 (10)O4—P1—Cs1xvii145.90 (17)
O3vi—Cs2—O4viii158.49 (11)Cs2xxi—P1—Cs1xvii82.94 (3)
O2vii—Cs2—O4viii84.88 (11)Cs1xix—P1—Cs1xvii131.83 (4)
O2viii—Cs2—O4viii45.17 (11)Cs2xix—P1—Cs1xvii150.04 (4)
O2ix—Cs2—O4viii100.59 (10)P1—O1—Zr1138.3 (3)
O4iv—Cs2—O4viii104.969 (12)P1—O1—Cs1xvii110.6 (2)
O4v—Cs2—O4viii54.81 (14)Zr1—O1—Cs1xvii100.58 (14)
O4vi—Cs2—O4viii138.92 (8)P1—O1—Cs2xxi72.88 (16)
O4vii—Cs2—O4viii114.33 (6)Zr1—O1—Cs2xxi133.47 (16)
O3iv—Cs2—O4ix158.49 (11)Cs1xvii—O1—Cs2xxi93.07 (10)
O3v—Cs2—O4ix59.70 (11)P1—O2—Ho1xxii171.4 (3)
O3vi—Cs2—O4ix85.62 (10)P1—O2—Zr1xxii171.4 (3)
O2vii—Cs2—O4ix100.59 (10)P1—O2—Cs2xxi94.19 (18)
O2viii—Cs2—O4ix84.88 (11)Ho1xxii—O2—Cs2xxi93.42 (15)
O2ix—Cs2—O4ix45.17 (11)Zr1xxii—O2—Cs2xxi93.42 (15)
O4iv—Cs2—O4ix138.92 (8)P1—O2—Cs1xix88.00 (19)
O4v—Cs2—O4ix104.969 (12)Ho1xxii—O2—Cs1xix94.36 (14)
O4vi—Cs2—O4ix54.81 (14)Zr1xxii—O2—Cs1xix94.36 (14)
O4vii—Cs2—O4ix114.33 (6)Cs2xxi—O2—Cs1xix101.09 (12)
O4viii—Cs2—O4ix114.33 (6)P1—O2—Cs1xvii89.58 (18)
O1x—Zr1—O190.57 (16)Ho1xxii—O2—Cs1xvii85.91 (13)
O1x—Zr1—O1xi90.57 (16)Zr1xxii—O2—Cs1xvii85.91 (13)
O1—Zr1—O1xi90.57 (16)Cs2xxi—O2—Cs1xvii94.66 (11)
O1x—Zr1—O2xii86.08 (15)Cs1xix—O2—Cs1xvii164.20 (14)
O1—Zr1—O2xii95.08 (16)P1—O3—Ho2xvii154.9 (3)
O1xi—Zr1—O2xii173.46 (16)P1—O3—Zr2xvii154.9 (3)
O1x—Zr1—O2xiii95.08 (16)P1—O3—Cs2xix106.6 (2)
O1—Zr1—O2xiii173.46 (16)Ho2xvii—O3—Cs2xix97.11 (14)
O1xi—Zr1—O2xiii86.08 (15)Zr2xvii—O3—Cs2xix97.11 (14)
O2xii—Zr1—O2xiii88.62 (17)P1—O3—Cs1xix76.96 (16)
O1x—Zr1—O2xiv173.46 (16)Ho2xvii—O3—Cs1xix103.56 (14)
O1—Zr1—O2xiv86.08 (15)Zr2xvii—O3—Cs1xix103.56 (14)
O1xi—Zr1—O2xiv95.08 (16)Cs2xix—O3—Cs1xix71.28 (9)
O2xii—Zr1—O2xiv88.62 (17)P1—O4—Zr2155.1 (3)
O2xiii—Zr1—O2xiv88.62 (17)P1—O4—Cs1xix89.57 (18)
O1x—Zr1—Cs2xv124.86 (11)Zr2—O4—Cs1xix115.30 (15)
O1—Zr1—Cs2xv124.86 (11)P1—O4—Cs2xix96.46 (19)
O1xi—Zr1—Cs2xv124.86 (11)Zr2—O4—Cs2xix90.24 (14)
O2xii—Zr1—Cs2xv53.77 (12)Cs1xix—O4—Cs2xix73.43 (9)
O2xiii—Zr1—Cs2xv53.77 (12)P1—O4—Cs2xxi87.63 (18)
O2xiv—Zr1—Cs2xv53.77 (12)Zr2—O4—Cs2xxi89.42 (14)
O1x—Zr1—Cs1xvi48.84 (11)Cs1xix—O4—Cs2xxi98.49 (11)
O1—Zr1—Cs1xvi132.10 (11)Cs2xix—O4—Cs2xxi170.84 (14)
Symmetry codes: (i) y+1/2, z+1/2, x+1; (ii) x+1, y+1/2, z+1/2; (iii) z+1/2, x+1, y+1/2; (iv) z+1/2, x+3/2, y+1; (v) y+1, z+1/2, x+3/2; (vi) x+3/2, y+1, z+1/2; (vii) x+1/2, y+3/2, z+1; (viii) z+1, x+1/2, y+3/2; (ix) y+3/2, z+1, x+1/2; (x) z, x, y; (xi) y, z, x; (xii) x1/2, y+1/2, z; (xiii) z, x1/2, y+1/2; (xiv) y+1/2, z, x1/2; (xv) x1, y1, z1; (xvi) x+1/2, y+1, z1/2; (xvii) x+1, y1/2, z+1/2; (xviii) x1/2, y+1/2, z+1; (xix) x+3/2, y+1, z1/2; (xx) x+1, y1/2, z+3/2; (xxi) x1/2, y+3/2, z+1; (xxii) x+1/2, y+1/2, z.
(CsErZrP) top
Crystal data top
Er0.775O12P3Zr1.225·1(Cs)·0.775(Cs)Dx = 4.482 Mg m3
Mr = 762.12Mo Kα radiation, λ = 0.71073 Å
Cubic, P213Cell parameters from 5508 reflections
Hall symbol: P 2ac 2ab 3θ = 3.4–30.0°
a = 10.4142 (2) ŵ = 12.97 mm1
V = 1129.48 (4) Å3T = 293 K
Z = 4Tetrahedron, rose
F(000) = 1361.20.08 × 0.07 × 0.05 mm
Data collection top
XCalibur-3
diffractometer		1108 independent reflections
Radiation source: fine focus sealed tube1065 reflections with I > 2σ(I)
Graphite monochromatorRint = 0.038
ϕ and ω scansθmax = 30.0°, θmin = 3.4°
Absorption correction: multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		h = 1113
Tmin = 0.429, Tmax = 0.569k = 1414
5508 measured reflectionsl = 1413
Refinement top
Refinement on F2Primary atom site location: structure-invariant direct methods
Least-squares matrix: fullSecondary atom site location: difference Fourier map
R[F2 > 2σ(F2)] = 0.026 w = 1/[σ2(Fo2) + (0.P)2 + 5.3017P]
where P = (Fo2 + 2Fc2)/3
wR(F2) = 0.042(Δ/σ)max = 0.006
S = 1.29Δρmax = 0.88 e Å3
1108 reflectionsΔρmin = 0.96 e Å3
64 parametersAbsolute structure: Flack H D (1983), Acta Cryst. A39, 876-881
3 restraintsAbsolute structure parameter: 0.05 (3)
Crystal data top
Er0.775O12P3Zr1.225·1(Cs)·0.775(Cs)Z = 4
Mr = 762.12Mo Kα radiation
Cubic, P213µ = 12.97 mm1
a = 10.4142 (2) ÅT = 293 K
V = 1129.48 (4) Å30.08 × 0.07 × 0.05 mm
Data collection top
XCalibur-3
diffractometer		1108 independent reflections
Absorption correction: multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		1065 reflections with I > 2σ(I)
Tmin = 0.429, Tmax = 0.569Rint = 0.038
5508 measured reflections
Refinement top
R[F2 > 2σ(F2)] = 0.0263 restraints
wR(F2) = 0.042Δρmax = 0.88 e Å3
S = 1.29Δρmin = 0.96 e Å3
1108 reflectionsAbsolute structure: Flack H D (1983), Acta Cryst. A39, 876-881
64 parametersAbsolute structure parameter: 0.05 (3)
Special details top

Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell e.s.d.'s are taken into account individually in the estimation of e.s.d.'s in distances, angles and torsion angles; correlations between e.s.d.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s. planes.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
Cs10.71172 (4)0.71172 (4)0.71172 (4)0.01797 (18)1.004 (3)
Cs20.92885 (4)0.92885 (4)0.92885 (4)0.0119 (2)0.771 (3)
Zr10.14409 (4)0.14409 (4)0.14409 (4)0.00767 (14)0.7088 (9)
Zr20.41433 (3)0.41433 (3)0.41433 (3)0.00713 (12)0.517 (3)
Er10.14409 (4)0.14409 (4)0.14409 (4)0.00767 (14)0.2911 (9)
Er20.41433 (3)0.41433 (3)0.41433 (3)0.00713 (12)0.483 (3)
P10.45869 (13)0.23104 (13)0.12382 (13)0.0075 (3)
O10.3163 (4)0.2310 (4)0.0847 (4)0.0143 (8)
O20.5374 (4)0.2956 (4)0.0174 (4)0.0164 (8)
O30.5066 (4)0.0936 (4)0.1443 (4)0.0165 (8)
O40.4771 (4)0.3100 (4)0.2475 (4)0.0162 (9)
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Cs10.01797 (18)0.01797 (18)0.01797 (18)0.00176 (14)0.00176 (14)0.00176 (14)
Cs20.0119 (2)0.0119 (2)0.0119 (2)0.00112 (15)0.00112 (15)0.00112 (15)
Zr10.00767 (14)0.00767 (14)0.00767 (14)0.00076 (13)0.00076 (13)0.00076 (13)
Zr20.00713 (12)0.00713 (12)0.00713 (12)0.00056 (12)0.00056 (12)0.00056 (12)
Er10.00767 (14)0.00767 (14)0.00767 (14)0.00076 (13)0.00076 (13)0.00076 (13)
Er20.00713 (12)0.00713 (12)0.00713 (12)0.00056 (12)0.00056 (12)0.00056 (12)
P10.0062 (6)0.0087 (6)0.0076 (6)0.0003 (5)0.0002 (4)0.0004 (5)
O10.0095 (18)0.023 (2)0.0107 (18)0.0011 (14)0.0044 (14)0.0035 (17)
O20.022 (2)0.0108 (19)0.017 (2)0.0019 (16)0.0118 (16)0.0001 (16)
O30.0154 (19)0.015 (2)0.019 (2)0.0026 (16)0.0023 (16)0.0046 (16)
O40.016 (2)0.020 (2)0.0129 (19)0.0020 (16)0.0017 (16)0.0030 (15)
Geometric parameters (Å, º) top
Cs1—O1i3.108 (4)Zr2—O3i2.130 (4)
Cs1—O1ii3.108 (4)Zr2—O3iii2.130 (4)
Cs1—O1iii3.108 (4)Zr2—O3ii2.130 (4)
Cs1—O4iv3.270 (4)Zr2—O4x2.151 (4)
Cs1—O4v3.270 (4)Zr2—O42.151 (4)
Cs1—O4vi3.270 (4)Zr2—O4xi2.151 (4)
Cs1—O2iv3.306 (4)Zr2—Cs2xix3.9323 (3)
Cs1—O2v3.306 (4)Zr2—Cs2xx3.9323 (3)
Cs1—O2vi3.306 (4)Zr2—Cs2xxi3.9323 (3)
Cs1—P1v3.6020 (13)Zr2—Cs1xix4.6197 (4)
Cs1—P1iv3.6020 (13)Zr2—Cs1xx4.6197 (4)
Cs1—P1vi3.6020 (13)Zr2—Cs1xxi4.6197 (4)
Cs2—O3v3.048 (4)P1—O31.531 (4)
Cs2—O3iv3.048 (4)P1—O21.534 (4)
Cs2—O3vi3.048 (4)P1—O11.538 (4)
Cs2—O2vii3.135 (4)P1—O41.540 (4)
Cs2—O2viii3.135 (4)P1—Cs2xxi3.5977 (15)
Cs2—O2ix3.135 (4)P1—Cs1xix3.6020 (13)
Cs2—O4v3.273 (4)P1—Cs2xix3.7729 (14)
Cs2—O4iv3.273 (4)P1—Cs1xvii3.9245 (14)
Cs2—O4vi3.273 (4)O1—Cs1xvii3.108 (4)
Cs2—O4vii3.320 (4)O1—Cs2xxi3.734 (4)
Cs2—O4viii3.320 (4)O2—Er1xxii2.111 (4)
Cs2—O4ix3.320 (4)O2—Zr1xxii2.111 (4)
Zr1—O1x2.102 (4)O2—Cs2xxi3.135 (4)
Zr1—O12.102 (4)O2—Cs1xix3.306 (4)
Zr1—O1xi2.102 (4)O2—Cs1xvii3.631 (4)
Zr1—O2xii2.111 (4)O3—Er2xvii2.130 (4)
Zr1—O2xiii2.111 (4)O3—Zr2xvii2.130 (4)
Zr1—O2xiv2.111 (4)O3—Cs2xix3.048 (4)
Zr1—Cs2xv3.8825 (10)O3—Cs1xix3.635 (4)
Zr1—Cs1xvi4.0598 (3)O4—Cs1xix3.270 (4)
Zr1—Cs1xvii4.0598 (3)O4—Cs2xix3.273 (4)
Zr1—Cs1xviii4.0598 (3)O4—Cs2xxi3.320 (4)
O1i—Cs1—O1ii88.67 (10)O1xi—Zr1—Cs1xvi132.12 (11)
O1i—Cs1—O1iii88.67 (11)O2xii—Zr1—Cs1xvi63.10 (12)
O1ii—Cs1—O1iii88.67 (10)O2xiii—Zr1—Cs1xvi54.28 (12)
O1i—Cs1—O4iv82.99 (11)O2xiv—Zr1—Cs1xvi131.12 (11)
O1ii—Cs1—O4iv102.17 (10)Cs2xv—Zr1—Cs1xvi77.687 (9)
O1iii—Cs1—O4iv166.11 (10)O1x—Zr1—Cs1xvii132.12 (11)
O1i—Cs1—O4v102.17 (10)O1—Zr1—Cs1xvii48.80 (11)
O1ii—Cs1—O4v166.11 (10)O1xi—Zr1—Cs1xvii110.71 (11)
O1iii—Cs1—O4v82.99 (11)O2xii—Zr1—Cs1xvii131.12 (11)
O4iv—Cs1—O4v87.92 (11)O2xiii—Zr1—Cs1xvii63.10 (12)
O1i—Cs1—O4vi166.11 (10)O2xiv—Zr1—Cs1xvii54.28 (12)
O1ii—Cs1—O4vi82.99 (11)Cs2xv—Zr1—Cs1xvii77.687 (9)
O1iii—Cs1—O4vi102.17 (10)Cs1xvi—Zr1—Cs1xvii115.581 (6)
O4iv—Cs1—O4vi87.92 (11)O1x—Zr1—Cs1xviii110.71 (11)
O4v—Cs1—O4vi87.92 (11)O1—Zr1—Cs1xviii132.12 (11)
O1i—Cs1—O2iv82.45 (10)O1xi—Zr1—Cs1xviii48.80 (11)
O1ii—Cs1—O2iv57.83 (9)O2xii—Zr1—Cs1xviii54.28 (12)
O1iii—Cs1—O2iv145.34 (10)O2xiii—Zr1—Cs1xviii131.12 (11)
O4iv—Cs1—O2iv44.35 (10)O2xiv—Zr1—Cs1xviii63.10 (12)
O4v—Cs1—O2iv131.62 (10)Cs2xv—Zr1—Cs1xviii77.687 (9)
O4vi—Cs1—O2iv83.70 (10)Cs1xvi—Zr1—Cs1xviii115.581 (6)
O1i—Cs1—O2v57.83 (9)Cs1xvii—Zr1—Cs1xviii115.581 (6)
O1ii—Cs1—O2v145.34 (10)O3i—Zr2—O3iii91.32 (16)
O1iii—Cs1—O2v82.45 (10)O3i—Zr2—O3ii91.32 (16)
O4iv—Cs1—O2v83.70 (10)O3iii—Zr2—O3ii91.32 (16)
O4v—Cs1—O2v44.35 (10)O3i—Zr2—O4x95.37 (15)
O4vi—Cs1—O2v131.62 (10)O3iii—Zr2—O4x84.34 (15)
O2iv—Cs1—O2v119.21 (2)O3ii—Zr2—O4x172.10 (15)
O1i—Cs1—O2vi145.34 (10)O3i—Zr2—O484.34 (15)
O1ii—Cs1—O2vi82.45 (10)O3iii—Zr2—O4172.10 (15)
O1iii—Cs1—O2vi57.83 (9)O3ii—Zr2—O495.37 (15)
O4iv—Cs1—O2vi131.62 (10)O4x—Zr2—O489.49 (15)
O4v—Cs1—O2vi83.70 (10)O3i—Zr2—O4xi172.10 (15)
O4vi—Cs1—O2vi44.35 (10)O3iii—Zr2—O4xi95.36 (15)
O2iv—Cs1—O2vi119.21 (2)O3ii—Zr2—O4xi84.34 (15)
O2v—Cs1—O2vi119.21 (2)O4x—Zr2—O4xi89.49 (15)
O1i—Cs1—P1v80.00 (7)O4—Zr2—O4xi89.49 (15)
O1ii—Cs1—P1v168.14 (8)O3i—Zr2—Cs2xix50.25 (12)
O1iii—Cs1—P1v94.53 (8)O3iii—Zr2—Cs2xix115.91 (11)
O4iv—Cs1—P1v73.13 (8)O3ii—Zr2—Cs2xix130.31 (11)
O4v—Cs1—P1v25.31 (7)O4x—Zr2—Cs2xix57.58 (11)
O4vi—Cs1—P1v107.40 (8)O4—Zr2—Cs2xix56.35 (11)
O2iv—Cs1—P1v116.54 (7)O4xi—Zr2—Cs2xix129.13 (10)
O2v—Cs1—P1v25.19 (7)O3i—Zr2—Cs2xx130.31 (11)
O2vi—Cs1—P1v108.91 (7)O3iii—Zr2—Cs2xx50.25 (12)
O1i—Cs1—P1iv94.53 (8)O3ii—Zr2—Cs2xx115.91 (11)
O1ii—Cs1—P1iv80.00 (7)O4x—Zr2—Cs2xx56.35 (11)
O1iii—Cs1—P1iv168.14 (8)O4—Zr2—Cs2xx129.13 (10)
O4iv—Cs1—P1iv25.31 (7)O4xi—Zr2—Cs2xx57.58 (11)
O4v—Cs1—P1iv107.40 (8)Cs2xix—Zr2—Cs2xx113.356 (7)
O4vi—Cs1—P1iv73.13 (8)O3i—Zr2—Cs2xxi115.91 (11)
O2iv—Cs1—P1iv25.19 (7)O3iii—Zr2—Cs2xxi130.31 (11)
O2v—Cs1—P1iv108.91 (7)O3ii—Zr2—Cs2xxi50.25 (12)
O2vi—Cs1—P1iv116.54 (7)O4x—Zr2—Cs2xxi129.13 (10)
P1v—Cs1—P1iv97.27 (3)O4—Zr2—Cs2xxi57.58 (11)
O1i—Cs1—P1vi168.14 (8)O4xi—Zr2—Cs2xxi56.35 (11)
O1ii—Cs1—P1vi94.53 (8)Cs2xix—Zr2—Cs2xxi113.356 (7)
O1iii—Cs1—P1vi80.00 (7)Cs2xx—Zr2—Cs2xxi113.356 (7)
O4iv—Cs1—P1vi107.40 (8)O3i—Zr2—Cs1xix49.94 (11)
O4v—Cs1—P1vi73.13 (8)O3iii—Zr2—Cs1xix138.75 (12)
O4vi—Cs1—P1vi25.31 (7)O3ii—Zr2—Cs1xix78.00 (11)
O2iv—Cs1—P1vi108.91 (7)O4x—Zr2—Cs1xix109.57 (11)
O2v—Cs1—P1vi116.54 (7)O4—Zr2—Cs1xix39.76 (10)
O2vi—Cs1—P1vi25.19 (7)O4xi—Zr2—Cs1xix122.46 (11)
P1v—Cs1—P1vi97.27 (3)Cs2xix—Zr2—Cs1xix53.785 (12)
P1iv—Cs1—P1vi97.27 (3)Cs2xx—Zr2—Cs1xix165.191 (13)
O3v—Cs2—O3iv99.04 (10)Cs2xxi—Zr2—Cs1xix70.761 (11)
O3v—Cs2—O3vi99.04 (10)O3i—Zr2—Cs1xx78.00 (11)
O3iv—Cs2—O3vi99.04 (10)O3iii—Zr2—Cs1xx49.94 (11)
O3v—Cs2—O2vii99.45 (11)O3ii—Zr2—Cs1xx138.75 (12)
O3iv—Cs2—O2vii99.33 (11)O4x—Zr2—Cs1xx39.76 (10)
O3vi—Cs2—O2vii151.44 (10)O4—Zr2—Cs1xx122.46 (11)
O3v—Cs2—O2viii99.33 (11)O4xi—Zr2—Cs1xx109.57 (11)
O3iv—Cs2—O2viii151.44 (11)Cs2xix—Zr2—Cs1xx70.761 (11)
O3vi—Cs2—O2viii99.45 (11)Cs2xx—Zr2—Cs1xx53.785 (12)
O2vii—Cs2—O2viii56.08 (12)Cs2xxi—Zr2—Cs1xx165.191 (13)
O3v—Cs2—O2ix151.44 (10)Cs1xix—Zr2—Cs1xx119.6560 (10)
O3iv—Cs2—O2ix99.45 (11)O3i—Zr2—Cs1xxi138.75 (12)
O3vi—Cs2—O2ix99.33 (11)O3iii—Zr2—Cs1xxi78.00 (11)
O2vii—Cs2—O2ix56.08 (12)O3ii—Zr2—Cs1xxi49.94 (11)
O2viii—Cs2—O2ix56.08 (12)O4x—Zr2—Cs1xxi122.46 (11)
O3v—Cs2—O4v46.75 (11)O4—Zr2—Cs1xxi109.57 (11)
O3iv—Cs2—O4v114.49 (11)O4xi—Zr2—Cs1xxi39.76 (10)
O3vi—Cs2—O4v53.93 (10)Cs2xix—Zr2—Cs1xxi165.191 (13)
O2vii—Cs2—O4v133.71 (10)Cs2xx—Zr2—Cs1xxi70.761 (11)
O2viii—Cs2—O4v94.01 (10)Cs2xxi—Zr2—Cs1xxi53.785 (12)
O2ix—Cs2—O4v138.48 (11)Cs1xix—Zr2—Cs1xxi119.6560 (10)
O3v—Cs2—O4iv53.93 (10)Cs1xx—Zr2—Cs1xxi119.6560 (10)
O3iv—Cs2—O4iv46.75 (11)O3—P1—O2109.7 (2)
O3vi—Cs2—O4iv114.49 (11)O3—P1—O1110.5 (2)
O2vii—Cs2—O4iv94.01 (10)O2—P1—O1108.9 (2)
O2viii—Cs2—O4iv138.48 (11)O3—P1—O4110.0 (2)
O2ix—Cs2—O4iv133.71 (10)O2—P1—O4107.7 (2)
O4v—Cs2—O4iv87.80 (10)O1—P1—O4110.0 (2)
O3v—Cs2—O4vi114.49 (11)O3—P1—Cs2xxi165.95 (16)
O3iv—Cs2—O4vi53.93 (10)O2—P1—Cs2xxi60.30 (16)
O3vi—Cs2—O4vi46.75 (11)O1—P1—Cs2xxi82.92 (16)
O2vii—Cs2—O4vi138.48 (11)O4—P1—Cs2xxi67.19 (16)
O2viii—Cs2—O4vi133.71 (10)O3—P1—Cs1xix79.00 (16)
O2ix—Cs2—O4vi94.01 (10)O2—P1—Cs1xix66.56 (17)
O4v—Cs2—O4vi87.80 (10)O1—P1—Cs1xix170.49 (17)
O4iv—Cs2—O4vi87.80 (10)O4—P1—Cs1xix65.20 (15)
O3v—Cs2—O4vii59.43 (10)Cs2xxi—P1—Cs1xix87.60 (3)
O3iv—Cs2—O4vii85.64 (10)O3—P1—Cs2xix50.88 (17)
O3vi—Cs2—O4vii158.46 (10)O2—P1—Cs2xix129.51 (17)
O2vii—Cs2—O4vii45.12 (10)O1—P1—Cs2xix121.47 (17)
O2viii—Cs2—O4vii85.09 (10)O4—P1—Cs2xix59.54 (16)
O2ix—Cs2—O4vii100.61 (10)Cs2xxi—P1—Cs2xix126.14 (4)
O4v—Cs2—O4vii104.956 (12)Cs1xix—P1—Cs2xix64.10 (3)
O4iv—Cs2—O4vii54.68 (14)O3—P1—Cs1xvii102.89 (17)
O4vi—Cs2—O4vii138.87 (8)O2—P1—Cs1xvii67.68 (17)
O3v—Cs2—O4viii85.64 (10)O1—P1—Cs1xvii47.79 (16)
O3iv—Cs2—O4viii158.46 (10)O4—P1—Cs1xvii145.92 (17)
O3vi—Cs2—O4viii59.43 (10)Cs2xxi—P1—Cs1xvii82.86 (3)
O2vii—Cs2—O4viii100.61 (10)Cs1xix—P1—Cs1xvii131.74 (4)
O2viii—Cs2—O4viii45.12 (10)Cs2xix—P1—Cs1xvii150.16 (4)
O2ix—Cs2—O4viii85.09 (10)P1—O1—Zr1138.2 (2)
O4v—Cs2—O4viii54.68 (14)P1—O1—Cs1xvii110.7 (2)
O4iv—Cs2—O4viii138.87 (8)Zr1—O1—Cs1xvii100.61 (13)
O4vi—Cs2—O4viii104.956 (12)P1—O1—Cs2xxi72.96 (15)
O4vii—Cs2—O4viii114.39 (5)Zr1—O1—Cs2xxi133.43 (16)
O3v—Cs2—O4ix158.46 (10)Cs1xvii—O1—Cs2xxi93.04 (10)
O3iv—Cs2—O4ix59.43 (10)P1—O2—Er1xxii170.9 (3)
O3vi—Cs2—O4ix85.64 (10)P1—O2—Zr1xxii170.9 (3)
O2vii—Cs2—O4ix85.09 (10)P1—O2—Cs2xxi94.55 (18)
O2viii—Cs2—O4ix100.61 (10)Er1xxii—O2—Cs2xxi93.42 (14)
O2ix—Cs2—O4ix45.12 (10)Zr1xxii—O2—Cs2xxi93.42 (14)
O4v—Cs2—O4ix138.87 (8)P1—O2—Cs1xix88.25 (18)
O4iv—Cs2—O4ix104.956 (12)Er1xxii—O2—Cs1xix94.49 (14)
O4vi—Cs2—O4ix54.68 (14)Zr1xxii—O2—Cs1xix94.49 (14)
O4vii—Cs2—O4ix114.39 (5)Cs2xxi—O2—Cs1xix101.33 (11)
O4viii—Cs2—O4ix114.39 (5)P1—O2—Cs1xvii89.31 (17)
O1x—Zr1—O190.58 (15)Er1xxii—O2—Cs1xvii85.67 (13)
O1x—Zr1—O1xi90.58 (15)Zr1xxii—O2—Cs1xvii85.67 (13)
O1—Zr1—O1xi90.58 (15)Cs2xxi—O2—Cs1xvii94.59 (11)
O1x—Zr1—O2xii86.22 (15)Cs1xix—O2—Cs1xvii164.03 (13)
O1—Zr1—O2xii173.60 (16)P1—O3—Er2xvii154.9 (3)
O1xi—Zr1—O2xii94.99 (15)P1—O3—Zr2xvii154.9 (3)
O1x—Zr1—O2xiii94.99 (15)P1—O3—Cs2xix106.2 (2)
O1—Zr1—O2xiii86.22 (15)Er2xvii—O3—Cs2xix97.25 (14)
O1xi—Zr1—O2xiii173.60 (16)Zr2xvii—O3—Cs2xix97.25 (14)
O2xii—Zr1—O2xiii88.54 (16)P1—O3—Cs1xix76.58 (16)
O1x—Zr1—O2xiv173.60 (16)Er2xvii—O3—Cs1xix103.42 (13)
O1—Zr1—O2xiv94.99 (15)Zr2xvii—O3—Cs1xix103.42 (13)
O1xi—Zr1—O2xiv86.22 (15)Cs2xix—O3—Cs1xix71.14 (9)
O2xii—Zr1—O2xiv88.54 (16)P1—O4—Zr2155.2 (2)
O2xiii—Zr1—O2xiv88.54 (16)P1—O4—Cs1xix89.49 (17)
O1x—Zr1—Cs2xv124.85 (11)Zr2—O4—Cs1xix115.36 (15)
O1—Zr1—Cs2xv124.85 (11)P1—O4—Cs2xix96.53 (19)
O1xi—Zr1—Cs2xv124.85 (11)Zr2—O4—Cs2xix90.49 (13)
O2xii—Zr1—Cs2xv53.71 (11)Cs1xix—O4—Cs2xix73.53 (9)
O2xiii—Zr1—Cs2xv53.71 (11)P1—O4—Cs2xxi87.48 (17)
O2xiv—Zr1—Cs2xv53.71 (11)Zr2—O4—Cs2xxi89.27 (13)
O1x—Zr1—Cs1xvi48.80 (11)Cs1xix—O4—Cs2xxi98.27 (11)
O1—Zr1—Cs1xvi110.71 (11)Cs2xix—O4—Cs2xxi170.76 (13)
Symmetry codes: (i) y+1/2, z+1/2, x+1; (ii) x+1, y+1/2, z+1/2; (iii) z+1/2, x+1, y+1/2; (iv) x+3/2, y+1, z+1/2; (v) y+1, z+1/2, x+3/2; (vi) z+1/2, x+3/2, y+1; (vii) y+3/2, z+1, x+1/2; (viii) z+1, x+1/2, y+3/2; (ix) x+1/2, y+3/2, z+1; (x) y, z, x; (xi) z, x, y; (xii) z, x1/2, y+1/2; (xiii) y+1/2, z, x1/2; (xiv) x1/2, y+1/2, z; (xv) x1, y1, z1; (xvi) x1/2, y+1/2, z+1; (xvii) x+1, y1/2, z+1/2; (xviii) x+1/2, y+1, z1/2; (xix) x+3/2, y+1, z1/2; (xx) x+1, y1/2, z+3/2; (xxi) x1/2, y+3/2, z+1; (xxii) x+1/2, y+1/2, z.
(CsTmZrP) top
Crystal data top
O12P3Tm0.70Zr1.3·1(Cs)·0.70(Cs)Dx = 4.422 Mg m3
Mr = 748.46Mo Kα radiation, λ = 0.71073 Å
Cubic, P213Cell parameters from 4789 reflections
Hall symbol: P 2ac 2ab 3θ = 3.4–30°
a = 10.3982 (1) ŵ = 12.64 mm1
V = 1124.28 (2) Å3T = 293 K
Z = 4Tetrahedron, grey
F(000) = 1340.40.05 × 0.05 × 0.04 mm
Data collection top
XCalibur-3
diffractometer		1093 independent reflections
Radiation source: fine focus sealed tube1048 reflections with I > 2σ(I)
Graphite monochromatorRint = 0.033
ϕ and ω scansθmax = 30°, θmin = 3.4°
Absorption correction: multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		h = 1414
Tmin = 0.560, Tmax = 0.622k = 813
4789 measured reflectionsl = 1214
Refinement top
Refinement on F2Primary atom site location: structure-invariant direct methods
Least-squares matrix: fullSecondary atom site location: difference Fourier map
R[F2 > 2σ(F2)] = 0.025 w = 1/[σ2(Fo2) + (0.006P)2 + 4.3663P]
where P = (Fo2 + 2Fc2)/3
wR(F2) = 0.040(Δ/σ)max = 0.002
S = 1.20Δρmax = 0.74 e Å3
1093 reflectionsΔρmin = 0.81 e Å3
64 parametersAbsolute structure: Flack H D (1983), Acta Cryst. A39, 876-881
3 restraintsAbsolute structure parameter: 0.01 (2)
Crystal data top
O12P3Tm0.70Zr1.3·1(Cs)·0.70(Cs)Z = 4
Mr = 748.46Mo Kα radiation
Cubic, P213µ = 12.64 mm1
a = 10.3982 (1) ÅT = 293 K
V = 1124.28 (2) Å30.05 × 0.05 × 0.04 mm
Data collection top
XCalibur-3
diffractometer		1093 independent reflections
Absorption correction: multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		1048 reflections with I > 2σ(I)
Tmin = 0.560, Tmax = 0.622Rint = 0.033
4789 measured reflections
Refinement top
R[F2 > 2σ(F2)] = 0.0253 restraints
wR(F2) = 0.040Δρmax = 0.74 e Å3
S = 1.20Δρmin = 0.81 e Å3
1093 reflectionsAbsolute structure: Flack H D (1983), Acta Cryst. A39, 876-881
64 parametersAbsolute structure parameter: 0.01 (2)
Special details top

Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell e.s.d.'s are taken into account individually in the estimation of e.s.d.'s in distances, angles and torsion angles; correlations between e.s.d.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s. planes.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
Cs10.71275 (4)0.71275 (4)0.71275 (4)0.01776 (17)1.003 (3)
Cs20.92879 (4)0.92879 (4)0.92879 (4)0.0119 (2)0.701 (2)
Zr10.14334 (3)0.14334 (3)0.14334 (3)0.00721 (14)0.741 (3)
Zr20.41408 (3)0.41408 (3)0.41408 (3)0.00730 (12)0.5559 (9)
Tm10.14334 (3)0.14334 (3)0.14334 (3)0.00721 (14)0.259 (3)
Tm20.41408 (3)0.41408 (3)0.41408 (3)0.00730 (12)0.4441 (9)
P10.45829 (12)0.23068 (12)0.12387 (12)0.0070 (2)
O10.3155 (3)0.2307 (4)0.0849 (4)0.0145 (8)
O20.5371 (4)0.2955 (4)0.0172 (4)0.0153 (7)
O30.5070 (3)0.0925 (4)0.1439 (4)0.0159 (8)
O40.4765 (3)0.3090 (4)0.2478 (4)0.0141 (8)
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Cs10.01776 (17)0.01776 (17)0.01776 (17)0.00248 (15)0.00248 (15)0.00248 (15)
Cs20.0119 (2)0.0119 (2)0.0119 (2)0.00115 (16)0.00115 (16)0.00115 (16)
Zr10.00721 (14)0.00721 (14)0.00721 (14)0.00088 (14)0.00088 (14)0.00088 (14)
Zr20.00730 (12)0.00730 (12)0.00730 (12)0.00099 (12)0.00099 (12)0.00099 (12)
Tm10.00721 (14)0.00721 (14)0.00721 (14)0.00088 (14)0.00088 (14)0.00088 (14)
Tm20.00730 (12)0.00730 (12)0.00730 (12)0.00099 (12)0.00099 (12)0.00099 (12)
P10.0067 (5)0.0081 (6)0.0061 (5)0.0001 (5)0.0012 (4)0.0005 (4)
O10.0088 (16)0.0189 (18)0.0159 (18)0.0010 (14)0.0052 (14)0.0007 (17)
O20.018 (2)0.0138 (18)0.0144 (18)0.0010 (16)0.0089 (15)0.0017 (15)
O30.0154 (17)0.0171 (19)0.0152 (17)0.0035 (16)0.0033 (16)0.0014 (16)
O40.0136 (18)0.0168 (19)0.0118 (17)0.0029 (15)0.0017 (15)0.0045 (15)
Geometric parameters (Å, º) top
Cs1—O1i3.114 (4)Zr2—O3i2.116 (4)
Cs1—O1ii3.114 (4)Zr2—O3ii2.116 (4)
Cs1—O1iii3.114 (4)Zr2—O3iii2.116 (4)
Cs1—O4iv3.260 (4)Zr2—O4xi2.146 (4)
Cs1—O4v3.260 (4)Zr2—O4x2.146 (4)
Cs1—O4vi3.260 (4)Zr2—O42.146 (4)
Cs1—O2vi3.303 (4)Zr2—Cs2xix3.9248 (3)
Cs1—O2v3.303 (4)Zr2—Cs2xx3.9248 (3)
Cs1—O2iv3.303 (4)Zr2—Cs2xxi3.9248 (3)
Cs1—P1v3.5918 (13)Zr2—Cs1xxi4.6020 (4)
Cs1—P1iv3.5918 (13)Zr2—Cs1xx4.6020 (4)
Cs1—P1vi3.5918 (13)Zr2—Cs1xix4.6020 (4)
Cs2—O3v3.045 (4)P1—O21.534 (4)
Cs2—O3iv3.045 (4)P1—O41.536 (4)
Cs2—O3vi3.045 (4)P1—O31.538 (4)
Cs2—O2vii3.131 (4)P1—O11.539 (4)
Cs2—O2viii3.131 (4)P1—Cs1xix3.5918 (13)
Cs2—O2ix3.131 (4)P1—Cs2xx3.5961 (13)
Cs2—O4iv3.260 (4)P1—Cs2xix3.7658 (14)
Cs2—O4v3.260 (4)P1—Cs1xvi3.9305 (13)
Cs2—O4vi3.260 (4)O1—Cs1xvi3.114 (4)
Cs2—O4vii3.324 (4)O1—Cs2xx3.734 (4)
Cs2—O4viii3.324 (4)O2—Tm1xxii2.101 (4)
Cs2—O4ix3.324 (4)O2—Zr1xxii2.101 (4)
Zr1—O1x2.098 (4)O2—Cs2xx3.131 (4)
Zr1—O12.098 (4)O2—Cs1xix3.303 (4)
Zr1—O1xi2.098 (4)O2—Cs1xvi3.634 (4)
Zr1—O2xii2.101 (4)O3—Tm2xvi2.116 (4)
Zr1—O2xiii2.101 (4)O3—Zr2xvi2.116 (4)
Zr1—O2xiv2.101 (4)O3—Cs2xix3.045 (4)
Zr1—Cs2xv3.8641 (10)O3—Cs1xix3.620 (4)
Zr1—Cs1xvi4.0583 (3)O4—Cs1xix3.260 (4)
Zr1—Cs1xvii4.0583 (3)O4—Cs2xix3.260 (4)
Zr1—Cs1xviii4.0583 (3)O4—Cs2xx3.324 (4)
O1i—Cs1—O1ii88.37 (10)O1xi—Zr1—Cs1xvi110.51 (10)
O1i—Cs1—O1iii88.37 (10)O2xii—Zr1—Cs1xvi131.51 (11)
O1ii—Cs1—O1iii88.37 (10)O2xiii—Zr1—Cs1xvi63.25 (11)
O1i—Cs1—O4iv166.38 (9)O2xiv—Zr1—Cs1xvi54.20 (11)
O1ii—Cs1—O4iv83.23 (10)Cs2xv—Zr1—Cs1xvi77.808 (9)
O1iii—Cs1—O4iv102.04 (9)O1x—Zr1—Cs1xvii110.51 (10)
O1i—Cs1—O4v83.23 (10)O1—Zr1—Cs1xvii132.10 (10)
O1ii—Cs1—O4v102.04 (9)O1xi—Zr1—Cs1xvii49.00 (10)
O1iii—Cs1—O4v166.38 (9)O2xii—Zr1—Cs1xvii54.20 (11)
O4iv—Cs1—O4v88.04 (10)O2xiii—Zr1—Cs1xvii131.51 (11)
O1i—Cs1—O4vi102.04 (9)O2xiv—Zr1—Cs1xvii63.25 (11)
O1ii—Cs1—O4vi166.38 (9)Cs2xv—Zr1—Cs1xvii77.808 (9)
O1iii—Cs1—O4vi83.23 (10)Cs1xvi—Zr1—Cs1xvii115.665 (6)
O4iv—Cs1—O4vi88.04 (10)O1x—Zr1—Cs1xviii49.00 (10)
O4v—Cs1—O4vi88.04 (10)O1—Zr1—Cs1xviii110.51 (10)
O1i—Cs1—O2vi57.60 (9)O1xi—Zr1—Cs1xviii132.10 (10)
O1ii—Cs1—O2vi144.81 (10)O2xii—Zr1—Cs1xviii63.25 (11)
O1iii—Cs1—O2vi82.46 (9)O2xiii—Zr1—Cs1xviii54.20 (11)
O4iv—Cs1—O2vi131.89 (9)O2xiv—Zr1—Cs1xviii131.51 (11)
O4v—Cs1—O2vi83.98 (9)Cs2xv—Zr1—Cs1xviii77.808 (9)
O4vi—Cs1—O2vi44.45 (9)Cs1xvi—Zr1—Cs1xviii115.665 (6)
O1i—Cs1—O2v82.46 (9)Cs1xvii—Zr1—Cs1xviii115.665 (6)
O1ii—Cs1—O2v57.60 (9)O3i—Zr2—O3ii91.16 (15)
O1iii—Cs1—O2v144.81 (10)O3i—Zr2—O3iii91.16 (15)
O4iv—Cs1—O2v83.98 (9)O3ii—Zr2—O3iii91.16 (15)
O4v—Cs1—O2v44.45 (9)O3i—Zr2—O4xi95.71 (14)
O4vi—Cs1—O2v131.89 (9)O3ii—Zr2—O4xi171.89 (14)
O2vi—Cs1—O2v119.296 (19)O3iii—Zr2—O4xi84.41 (14)
O1i—Cs1—O2iv144.81 (10)O3i—Zr2—O4x84.41 (14)
O1ii—Cs1—O2iv82.46 (9)O3ii—Zr2—O4x95.71 (14)
O1iii—Cs1—O2iv57.60 (9)O3iii—Zr2—O4x171.89 (14)
O4iv—Cs1—O2iv44.45 (9)O4xi—Zr2—O4x89.27 (13)
O4v—Cs1—O2iv131.89 (9)O3i—Zr2—O4171.89 (14)
O4vi—Cs1—O2iv83.98 (9)O3ii—Zr2—O484.41 (14)
O2vi—Cs1—O2iv119.296 (19)O3iii—Zr2—O495.71 (14)
O2v—Cs1—O2iv119.296 (19)O4xi—Zr2—O489.27 (13)
O1i—Cs1—P1v94.66 (7)O4x—Zr2—O489.27 (13)
O1ii—Cs1—P1v79.88 (7)O3i—Zr2—Cs2xix115.90 (10)
O1iii—Cs1—P1v167.76 (7)O3ii—Zr2—Cs2xix50.30 (11)
O4iv—Cs1—P1v73.35 (7)O3iii—Zr2—Cs2xix130.23 (10)
O4v—Cs1—P1v25.31 (7)O4xi—Zr2—Cs2xix129.04 (9)
O4vi—Cs1—P1v107.63 (7)O4x—Zr2—Cs2xix57.87 (10)
O2vi—Cs1—P1v109.16 (7)O4—Zr2—Cs2xix56.15 (10)
O2v—Cs1—P1v25.27 (7)O3i—Zr2—Cs2xx130.23 (10)
O2iv—Cs1—P1v116.78 (7)O3ii—Zr2—Cs2xx115.90 (10)
O1i—Cs1—P1iv167.76 (7)O3iii—Zr2—Cs2xx50.30 (11)
O1ii—Cs1—P1iv94.66 (7)O4xi—Zr2—Cs2xx56.15 (10)
O1iii—Cs1—P1iv79.88 (7)O4x—Zr2—Cs2xx129.04 (9)
O4iv—Cs1—P1iv25.31 (7)O4—Zr2—Cs2xx57.87 (10)
O4v—Cs1—P1iv107.63 (7)Cs2xix—Zr2—Cs2xx113.412 (7)
O4vi—Cs1—P1iv73.35 (7)O3i—Zr2—Cs2xxi50.30 (11)
O2vi—Cs1—P1iv116.78 (7)O3ii—Zr2—Cs2xxi130.23 (10)
O2v—Cs1—P1iv109.16 (7)O3iii—Zr2—Cs2xxi115.90 (10)
O2iv—Cs1—P1iv25.27 (7)O4xi—Zr2—Cs2xxi57.87 (10)
P1v—Cs1—P1iv97.54 (3)O4x—Zr2—Cs2xxi56.15 (10)
O1i—Cs1—P1vi79.88 (7)O4—Zr2—Cs2xxi129.04 (9)
O1ii—Cs1—P1vi167.76 (7)Cs2xix—Zr2—Cs2xxi113.412 (7)
O1iii—Cs1—P1vi94.66 (7)Cs2xx—Zr2—Cs2xxi113.412 (7)
O4iv—Cs1—P1vi107.63 (7)O3i—Zr2—Cs1xxi49.89 (10)
O4v—Cs1—P1vi73.35 (7)O3ii—Zr2—Cs1xxi78.14 (10)
O4vi—Cs1—P1vi25.31 (7)O3iii—Zr2—Cs1xxi138.60 (11)
O2vi—Cs1—P1vi25.27 (7)O4xi—Zr2—Cs1xxi109.63 (10)
O2v—Cs1—P1vi116.78 (7)O4x—Zr2—Cs1xxi39.88 (9)
O2iv—Cs1—P1vi109.16 (7)O4—Zr2—Cs1xxi122.31 (10)
P1v—Cs1—P1vi97.54 (3)Cs2xix—Zr2—Cs1xxi70.926 (11)
P1iv—Cs1—P1vi97.54 (3)Cs2xx—Zr2—Cs1xxi165.122 (12)
O3v—Cs2—O3iv99.13 (9)Cs2xxi—Zr2—Cs1xxi53.587 (13)
O3v—Cs2—O3vi99.13 (9)O3i—Zr2—Cs1xx78.14 (10)
O3iv—Cs2—O3vi99.13 (9)O3ii—Zr2—Cs1xx138.60 (11)
O3v—Cs2—O2vii99.32 (10)O3iii—Zr2—Cs1xx49.89 (10)
O3iv—Cs2—O2vii151.37 (10)O4xi—Zr2—Cs1xx39.88 (9)
O3vi—Cs2—O2vii99.32 (10)O4x—Zr2—Cs1xx122.31 (10)
O3v—Cs2—O2viii99.32 (10)O4—Zr2—Cs1xx109.63 (10)
O3iv—Cs2—O2viii99.32 (10)Cs2xix—Zr2—Cs1xx165.122 (12)
O3vi—Cs2—O2viii151.37 (10)Cs2xx—Zr2—Cs1xx53.587 (13)
O2vii—Cs2—O2viii56.09 (11)Cs2xxi—Zr2—Cs1xx70.926 (11)
O3v—Cs2—O2ix151.37 (10)Cs1xxi—Zr2—Cs1xx119.6580 (10)
O3iv—Cs2—O2ix99.32 (10)O3i—Zr2—Cs1xix138.60 (11)
O3vi—Cs2—O2ix99.32 (10)O3ii—Zr2—Cs1xix49.89 (10)
O2vii—Cs2—O2ix56.09 (11)O3iii—Zr2—Cs1xix78.14 (10)
O2viii—Cs2—O2ix56.09 (11)O4xi—Zr2—Cs1xix122.31 (10)
O3v—Cs2—O4iv53.89 (9)O4x—Zr2—Cs1xix109.63 (10)
O3iv—Cs2—O4iv46.91 (10)O4—Zr2—Cs1xix39.88 (9)
O3vi—Cs2—O4iv114.74 (10)Cs2xix—Zr2—Cs1xix53.587 (13)
O2vii—Cs2—O4iv138.36 (10)Cs2xx—Zr2—Cs1xix70.926 (11)
O2viii—Cs2—O4iv93.84 (9)Cs2xxi—Zr2—Cs1xix165.122 (12)
O2ix—Cs2—O4iv133.58 (9)Cs1xxi—Zr2—Cs1xix119.6580 (10)
O3v—Cs2—O4v46.91 (10)Cs1xx—Zr2—Cs1xix119.6580 (10)
O3iv—Cs2—O4v114.74 (10)O2—P1—O4107.9 (2)
O3vi—Cs2—O4v53.89 (9)O2—P1—O3109.4 (2)
O2vii—Cs2—O4v93.84 (9)O4—P1—O3110.0 (2)
O2viii—Cs2—O4v133.58 (9)O2—P1—O1108.9 (2)
O2ix—Cs2—O4v138.36 (10)O4—P1—O1109.8 (2)
O4iv—Cs2—O4v88.04 (9)O3—P1—O1110.7 (2)
O3v—Cs2—O4vi114.74 (10)O2—P1—Cs1xix66.77 (15)
O3iv—Cs2—O4vi53.89 (9)O4—P1—Cs1xix65.17 (14)
O3vi—Cs2—O4vi46.91 (10)O3—P1—Cs1xix78.74 (15)
O2vii—Cs2—O4vi133.58 (9)O1—P1—Cs1xix170.56 (16)
O2viii—Cs2—O4vi138.36 (10)O2—P1—Cs2xx60.19 (15)
O2ix—Cs2—O4vi93.84 (9)O4—P1—Cs2xx67.43 (15)
O4iv—Cs2—O4vi88.04 (9)O3—P1—Cs2xx165.66 (15)
O4v—Cs2—O4vi88.04 (9)O1—P1—Cs2xx82.95 (15)
O3v—Cs2—O4vii85.70 (9)Cs1xix—P1—Cs2xx87.66 (3)
O3iv—Cs2—O4vii158.44 (9)O2—P1—Cs2xix129.44 (16)
O3vi—Cs2—O4vii59.31 (9)O4—P1—Cs2xix59.26 (15)
O2vii—Cs2—O4vii45.11 (9)O3—P1—Cs2xix51.08 (15)
O2viii—Cs2—O4vii100.60 (9)O1—P1—Cs2xix121.51 (16)
O2ix—Cs2—O4vii85.12 (9)Cs1xix—P1—Cs2xix63.80 (2)
O4iv—Cs2—O4vii138.90 (7)Cs2xx—P1—Cs2xix126.04 (3)
O4v—Cs2—O4vii54.51 (13)O2—P1—Cs1xvi67.60 (15)
O4vi—Cs2—O4vii104.960 (11)O4—P1—Cs1xvi145.88 (15)
O3v—Cs2—O4viii59.31 (9)O3—P1—Cs1xvi103.02 (15)
O3iv—Cs2—O4viii85.70 (9)O1—P1—Cs1xvi47.86 (15)
O3vi—Cs2—O4viii158.44 (9)Cs1xix—P1—Cs1xvi131.90 (4)
O2vii—Cs2—O4viii85.12 (9)Cs2xx—P1—Cs1xvi82.68 (3)
O2viii—Cs2—O4viii45.11 (9)Cs2xix—P1—Cs1xvi150.45 (4)
O2ix—Cs2—O4viii100.60 (9)P1—O1—Zr1138.3 (2)
O4iv—Cs2—O4viii54.51 (12)P1—O1—Cs1xvi110.65 (19)
O4v—Cs2—O4viii104.960 (11)Zr1—O1—Cs1xvi100.45 (13)
O4vi—Cs2—O4viii138.90 (7)P1—O1—Cs2xx72.90 (14)
O4vii—Cs2—O4viii114.39 (5)Zr1—O1—Cs2xx133.71 (15)
O3v—Cs2—O4ix158.44 (9)Cs1xvi—O1—Cs2xx92.80 (9)
O3iv—Cs2—O4ix59.31 (9)P1—O2—Tm1xxii171.1 (2)
O3vi—Cs2—O4ix85.70 (9)P1—O2—Zr1xxii171.1 (2)
O2vii—Cs2—O4ix100.60 (9)P1—O2—Cs2xx94.63 (16)
O2viii—Cs2—O4ix85.12 (9)Tm1xxii—O2—Cs2xx93.12 (13)
O2ix—Cs2—O4ix45.11 (9)Zr1xxii—O2—Cs2xx93.12 (13)
O4iv—Cs2—O4ix104.960 (11)P1—O2—Cs1xix87.96 (17)
O4v—Cs2—O4ix138.90 (7)Tm1xxii—O2—Cs1xix94.75 (13)
O4vi—Cs2—O4ix54.51 (12)Zr1xxii—O2—Cs1xix94.75 (13)
O4vii—Cs2—O4ix114.39 (5)Cs2xx—O2—Cs1xix101.35 (10)
O4viii—Cs2—O4ix114.39 (5)P1—O2—Cs1xvi89.42 (16)
O1x—Zr1—O190.18 (15)Tm1xxii—O2—Cs1xvi85.68 (12)
O1x—Zr1—O1xi90.18 (15)Zr1xxii—O2—Cs1xvi85.68 (12)
O1—Zr1—O1xi90.18 (15)Cs2xx—O2—Cs1xvi94.46 (10)
O1x—Zr1—O2xii86.19 (14)Cs1xix—O2—Cs1xvi164.13 (13)
O1—Zr1—O2xii173.67 (15)P1—O3—Tm2xvi155.3 (3)
O1xi—Zr1—O2xii95.02 (14)P1—O3—Zr2xvi155.3 (3)
O1x—Zr1—O2xiii95.02 (14)P1—O3—Cs2xix105.78 (18)
O1—Zr1—O2xiii86.19 (14)Tm2xvi—O3—Cs2xix97.38 (13)
O1xi—Zr1—O2xiii173.67 (15)Zr2xvi—O3—Cs2xix97.38 (13)
O2xii—Zr1—O2xiii88.95 (15)P1—O3—Cs1xix76.65 (15)
O1x—Zr1—O2xiv173.67 (15)Tm2xvi—O3—Cs1xix103.56 (12)
O1—Zr1—O2xiv95.02 (14)Zr2xvi—O3—Cs1xix103.56 (12)
O1xi—Zr1—O2xiv86.19 (14)Cs2xix—O3—Cs1xix70.83 (8)
O2xii—Zr1—O2xiv88.95 (15)P1—O4—Zr2155.3 (2)
O2xiii—Zr1—O2xiv88.95 (15)P1—O4—Cs1xix89.52 (16)
O1x—Zr1—Cs2xv125.14 (11)Zr2—O4—Cs1xix115.15 (13)
O1—Zr1—Cs2xv125.14 (11)P1—O4—Cs2xix96.86 (17)
O1xi—Zr1—Cs2xv125.14 (11)Zr2—O4—Cs2xix90.70 (12)
O2xii—Zr1—Cs2xv54.00 (11)Cs1xix—O4—Cs2xix73.28 (8)
O2xiii—Zr1—Cs2xv54.00 (11)P1—O4—Cs2xx87.32 (16)
O2xiv—Zr1—Cs2xv54.00 (11)Zr2—O4—Cs2xx88.99 (12)
O1x—Zr1—Cs1xvi132.10 (10)Cs1xix—O4—Cs2xx98.23 (10)
O1—Zr1—Cs1xvi49.00 (10)Cs2xix—O4—Cs2xx170.43 (12)
Symmetry codes: (i) z+1/2, x+1, y+1/2; (ii) y+1/2, z+1/2, x+1; (iii) x+1, y+1/2, z+1/2; (iv) x+3/2, y+1, z+1/2; (v) y+1, z+1/2, x+3/2; (vi) z+1/2, x+3/2, y+1; (vii) z+1, x+1/2, y+3/2; (viii) y+3/2, z+1, x+1/2; (ix) x+1/2, y+3/2, z+1; (x) y, z, x; (xi) z, x, y; (xii) z, x1/2, y+1/2; (xiii) y+1/2, z, x1/2; (xiv) x1/2, y+1/2, z; (xv) x1, y1, z1; (xvi) x+1, y1/2, z+1/2; (xvii) x+1/2, y+1, z1/2; (xviii) x1/2, y+1/2, z+1; (xix) x+3/2, y+1, z1/2; (xx) x1/2, y+3/2, z+1; (xxi) x+1, y1/2, z+3/2; (xxii) x+1/2, y+1/2, z.
(CsYbZrP) top
Crystal data top
O12P3Yb0.515Zr1.485·0.988(Cs)·0.527(Cs)Dx = 4.244 Mg m3
Mr = 710.85Mo Kα radiation, λ = 0.71073 Å
Cubic, P213Cell parameters from 4844 reflections
Hall symbol: P 2ac 2ab 3θ = 2.8–30.0°
a = 10.3616 (1) ŵ = 11.07 mm1
V = 1112.45 (2) Å3T = 293 K
Z = 4Tetrahedron, colourless
F(000) = 1279.10.07 × 0.06 × 0.04 mm
Data collection top
XCalibur-3
diffractometer		1096 independent reflections
Radiation source: fine focus sealed tube981 reflections with I > 2σ(I)
Graphite monochromatorRint = 0.036
ϕ and ω scansθmax = 30.0°, θmin = 2.8°
Absorption correction: multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		h = 1414
Tmin = 0.516, Tmax = 0.669k = 1214
4844 measured reflectionsl = 1212
Refinement top
Refinement on F2Primary atom site location: structure-invariant direct methods
Least-squares matrix: fullSecondary atom site location: difference Fourier map
R[F2 > 2σ(F2)] = 0.020 w = 1/[σ2(Fo2) + (0.014P)2]
where P = (Fo2 + 2Fc2)/3
wR(F2) = 0.035(Δ/σ)max = 0.001
S = 0.96Δρmax = 0.75 e Å3
1096 reflectionsΔρmin = 0.70 e Å3
64 parametersAbsolute structure: Flack H D (1983), Acta Cryst. A39, 876-881
3 restraintsAbsolute structure parameter: 0.02 (2)
Crystal data top
O12P3Yb0.515Zr1.485·0.988(Cs)·0.527(Cs)Z = 4
Mr = 710.85Mo Kα radiation
Cubic, P213µ = 11.07 mm1
a = 10.3616 (1) ÅT = 293 K
V = 1112.45 (2) Å30.07 × 0.06 × 0.04 mm
Data collection top
XCalibur-3
diffractometer		1096 independent reflections
Absorption correction: multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		981 reflections with I > 2σ(I)
Tmin = 0.516, Tmax = 0.669Rint = 0.036
4844 measured reflections
Refinement top
R[F2 > 2σ(F2)] = 0.0203 restraints
wR(F2) = 0.035Δρmax = 0.75 e Å3
S = 0.96Δρmin = 0.70 e Å3
1096 reflectionsAbsolute structure: Flack H D (1983), Acta Cryst. A39, 876-881
64 parametersAbsolute structure parameter: 0.02 (2)
Special details top

Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell e.s.d.'s are taken into account individually in the estimation of e.s.d.'s in distances, angles and torsion angles; correlations between e.s.d.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s. planes.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
Cs10.71488 (3)0.71488 (3)0.71488 (3)0.01978 (15)0.988 (2)
Cs20.92846 (5)0.92846 (5)0.92846 (5)0.0127 (3)0.5275 (18)
Zr10.14170 (3)0.14170 (3)0.14170 (3)0.00961 (15)0.829 (2)
Zr20.41379 (3)0.41379 (3)0.41379 (3)0.00982 (13)0.6562 (9)
Yb10.14170 (3)0.14170 (3)0.14170 (3)0.00961 (15)0.171 (2)
Yb20.41379 (3)0.41379 (3)0.41379 (3)0.00982 (13)0.3436 (9)
P10.45693 (11)0.23016 (11)0.12443 (10)0.0093 (2)
O10.3142 (3)0.2302 (3)0.0851 (3)0.0139 (7)
O20.5370 (3)0.2950 (3)0.0175 (3)0.0183 (7)
O30.5066 (3)0.0920 (3)0.1435 (3)0.0154 (7)
O40.4753 (3)0.3086 (3)0.2488 (3)0.0161 (7)
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Cs10.01978 (15)0.01978 (15)0.01978 (15)0.00324 (14)0.00324 (14)0.00324 (14)
Cs20.0127 (3)0.0127 (3)0.0127 (3)0.0012 (2)0.0012 (2)0.0012 (2)
Zr10.00961 (15)0.00961 (15)0.00961 (15)0.00083 (14)0.00083 (14)0.00083 (14)
Zr20.00982 (13)0.00982 (13)0.00982 (13)0.00024 (12)0.00024 (12)0.00024 (12)
Yb10.00961 (15)0.00961 (15)0.00961 (15)0.00083 (14)0.00083 (14)0.00083 (14)
Yb20.00982 (13)0.00982 (13)0.00982 (13)0.00024 (12)0.00024 (12)0.00024 (12)
P10.0088 (6)0.0103 (6)0.0087 (5)0.0004 (4)0.0009 (4)0.0000 (4)
O10.0098 (16)0.0176 (16)0.0143 (16)0.0018 (12)0.0005 (12)0.0029 (14)
O20.0168 (18)0.0182 (18)0.0199 (18)0.0006 (13)0.0063 (13)0.0026 (14)
O30.0185 (17)0.0125 (16)0.0151 (16)0.0038 (13)0.0001 (14)0.0025 (13)
O40.0156 (17)0.0183 (18)0.0145 (17)0.0023 (13)0.0031 (13)0.0037 (13)
Geometric parameters (Å, º) top
Cs1—O1i3.127 (3)Zr2—O3i2.107 (3)
Cs1—O1ii3.127 (3)Zr2—O3ii2.107 (3)
Cs1—O1iii3.127 (3)Zr2—O3iii2.107 (3)
Cs1—O4iv3.238 (3)Zr2—O4xiii2.126 (3)
Cs1—O4v3.238 (3)Zr2—O42.126 (3)
Cs1—O4vi3.238 (3)Zr2—O4xiv2.126 (3)
Cs1—O2iv3.287 (3)Zr2—Cs2xix3.9078 (3)
Cs1—O2vi3.287 (3)Zr2—Cs2xx3.9078 (3)
Cs1—O2v3.287 (3)Zr2—Cs2xxi3.9078 (3)
Cs1—P1iv3.5730 (11)Zr2—Cs1xix4.5639 (3)
Cs1—P1vi3.5730 (11)Zr2—Cs1xx4.5639 (3)
Cs1—P1v3.5730 (11)Zr2—Cs1xxi4.5639 (3)
Cs2—O3v3.036 (3)P1—O11.534 (3)
Cs2—O3iv3.036 (3)P1—O31.534 (3)
Cs2—O3vi3.036 (3)P1—O41.535 (3)
Cs2—O2vii3.128 (3)P1—O21.539 (3)
Cs2—O2viii3.128 (3)P1—Cs1xix3.5730 (11)
Cs2—O2ix3.128 (3)P1—Cs2xx3.5916 (12)
Cs2—O4iv3.239 (3)P1—Cs2xix3.7464 (12)
Cs2—O4vi3.239 (3)P1—Cs1xvi3.9440 (11)
Cs2—O4v3.239 (3)O1—Cs1xvi3.127 (3)
Cs2—O4vii3.322 (3)O1—Cs2xx3.732 (3)
Cs2—O4viii3.322 (3)O2—Yb1xxii2.081 (3)
Cs2—O4ix3.322 (3)O2—Zr1xxii2.081 (3)
Zr1—O2x2.081 (3)O2—Cs2xx3.128 (3)
Zr1—O2xi2.081 (3)O2—Cs1xix3.287 (3)
Zr1—O2xii2.081 (3)O2—Cs1xvi3.647 (3)
Zr1—O12.093 (3)O3—Yb2xvi2.107 (3)
Zr1—O1xiii2.093 (3)O3—Zr2xvi2.107 (3)
Zr1—O1xiv2.093 (3)O3—Cs2xix3.036 (3)
Zr1—Cs2xv3.8269 (11)O3—Cs1xix3.589 (3)
Zr1—Cs1xvi4.0539 (3)O4—Cs1xix3.238 (3)
Zr1—Cs1xvii4.0539 (3)O4—Cs2xix3.239 (3)
Zr1—Cs1xviii4.0539 (3)O4—Cs2xx3.322 (3)
O1i—Cs1—O1ii87.69 (8)O2xii—Zr1—Cs1xvi132.49 (9)
O1i—Cs1—O1iii87.69 (8)O1—Zr1—Cs1xvi49.42 (8)
O1ii—Cs1—O1iii87.69 (8)O1xiii—Zr1—Cs1xvi132.08 (8)
O1i—Cs1—O4iv83.42 (8)O1xiv—Zr1—Cs1xvi110.03 (8)
O1ii—Cs1—O4iv101.96 (8)Cs2xv—Zr1—Cs1xvi78.080 (9)
O1iii—Cs1—O4iv166.56 (7)O2x—Zr1—Cs1xvii53.80 (9)
O1i—Cs1—O4v166.56 (7)O2xi—Zr1—Cs1xvii132.49 (9)
O1ii—Cs1—O4v83.42 (8)O2xii—Zr1—Cs1xvii63.74 (9)
O1iii—Cs1—O4v101.96 (8)O1—Zr1—Cs1xvii110.03 (8)
O4iv—Cs1—O4v88.57 (8)O1xiii—Zr1—Cs1xvii49.42 (8)
O1i—Cs1—O4vi101.96 (8)O1xiv—Zr1—Cs1xvii132.08 (8)
O1ii—Cs1—O4vi166.56 (7)Cs2xv—Zr1—Cs1xvii78.080 (9)
O1iii—Cs1—O4vi83.42 (8)Cs1xvi—Zr1—Cs1xvii115.849 (6)
O4iv—Cs1—O4vi88.57 (8)O2x—Zr1—Cs1xviii132.49 (9)
O4v—Cs1—O4vi88.57 (8)O2xi—Zr1—Cs1xviii63.74 (9)
O1i—Cs1—O2iv82.48 (8)O2xii—Zr1—Cs1xviii53.80 (9)
O1ii—Cs1—O2iv57.22 (7)O1—Zr1—Cs1xviii132.08 (8)
O1iii—Cs1—O2iv143.73 (8)O1xiii—Zr1—Cs1xviii110.03 (8)
O4iv—Cs1—O2iv44.74 (8)O1xiv—Zr1—Cs1xviii49.42 (8)
O4v—Cs1—O2iv84.23 (8)Cs2xv—Zr1—Cs1xviii78.080 (9)
O4vi—Cs1—O2iv132.75 (8)Cs1xvi—Zr1—Cs1xviii115.849 (6)
O1i—Cs1—O2vi57.22 (7)Cs1xvii—Zr1—Cs1xviii115.849 (6)
O1ii—Cs1—O2vi143.73 (8)O3i—Zr2—O3ii90.80 (12)
O1iii—Cs1—O2vi82.48 (8)O3i—Zr2—O3iii90.80 (12)
O4iv—Cs1—O2vi84.23 (8)O3ii—Zr2—O3iii90.80 (12)
O4v—Cs1—O2vi132.75 (8)O3i—Zr2—O4xiii96.07 (12)
O4vi—Cs1—O2vi44.74 (8)O3ii—Zr2—O4xiii171.83 (11)
O2iv—Cs1—O2vi119.453 (15)O3iii—Zr2—O4xiii84.70 (11)
O1i—Cs1—O2v143.73 (8)O3i—Zr2—O484.70 (11)
O1ii—Cs1—O2v82.48 (8)O3ii—Zr2—O496.07 (12)
O1iii—Cs1—O2v57.22 (7)O3iii—Zr2—O4171.83 (11)
O4iv—Cs1—O2v132.75 (8)O4xiii—Zr2—O489.00 (11)
O4v—Cs1—O2v44.74 (8)O3i—Zr2—O4xiv171.83 (11)
O4vi—Cs1—O2v84.23 (8)O3ii—Zr2—O4xiv84.70 (11)
O2iv—Cs1—O2v119.453 (15)O3iii—Zr2—O4xiv96.07 (12)
O2vi—Cs1—O2v119.453 (15)O4xiii—Zr2—O4xiv89.00 (11)
O1i—Cs1—P1iv94.86 (6)O4—Zr2—O4xiv89.00 (11)
O1ii—Cs1—P1iv79.80 (6)O3i—Zr2—Cs2xix50.42 (8)
O1iii—Cs1—P1iv167.10 (6)O3ii—Zr2—Cs2xix129.97 (9)
O4iv—Cs1—P1iv25.44 (6)O3iii—Zr2—Cs2xix116.02 (9)
O4v—Cs1—P1iv73.69 (6)O4xiii—Zr2—Cs2xix58.19 (9)
O4vi—Cs1—P1iv108.31 (6)O4—Zr2—Cs2xix55.97 (9)
O2iv—Cs1—P1iv25.48 (6)O4xiv—Zr2—Cs2xix128.94 (8)
O2vi—Cs1—P1iv109.51 (6)O3i—Zr2—Cs2xx116.02 (9)
O2v—Cs1—P1iv117.34 (6)O3ii—Zr2—Cs2xx50.42 (8)
O1i—Cs1—P1vi79.80 (6)O3iii—Zr2—Cs2xx129.97 (9)
O1ii—Cs1—P1vi167.10 (6)O4xiii—Zr2—Cs2xx128.94 (8)
O1iii—Cs1—P1vi94.86 (6)O4—Zr2—Cs2xx58.19 (9)
O4iv—Cs1—P1vi73.69 (6)O4xiv—Zr2—Cs2xx55.97 (9)
O4v—Cs1—P1vi108.31 (6)Cs2xix—Zr2—Cs2xx113.491 (6)
O4vi—Cs1—P1vi25.44 (6)O3i—Zr2—Cs2xxi129.97 (9)
O2iv—Cs1—P1vi117.34 (6)O3ii—Zr2—Cs2xxi116.02 (9)
O2vi—Cs1—P1vi25.48 (6)O3iii—Zr2—Cs2xxi50.42 (8)
O2v—Cs1—P1vi109.51 (6)O4xiii—Zr2—Cs2xxi55.97 (9)
P1iv—Cs1—P1vi98.03 (3)O4—Zr2—Cs2xxi128.94 (8)
O1i—Cs1—P1v167.10 (6)O4xiv—Zr2—Cs2xxi58.19 (9)
O1ii—Cs1—P1v94.86 (6)Cs2xix—Zr2—Cs2xxi113.491 (6)
O1iii—Cs1—P1v79.80 (6)Cs2xx—Zr2—Cs2xxi113.491 (6)
O4iv—Cs1—P1v108.31 (6)O3i—Zr2—Cs1xix49.90 (8)
O4v—Cs1—P1v25.44 (6)O3ii—Zr2—Cs1xix78.40 (9)
O4vi—Cs1—P1v73.69 (6)O3iii—Zr2—Cs1xix138.35 (9)
O2iv—Cs1—P1v109.51 (6)O4xiii—Zr2—Cs1xix109.44 (9)
O2vi—Cs1—P1v117.34 (6)O4—Zr2—Cs1xix40.01 (8)
O2v—Cs1—P1v25.48 (6)O4xiv—Zr2—Cs1xix122.28 (9)
P1iv—Cs1—P1v98.03 (3)Cs2xix—Zr2—Cs1xix53.119 (13)
P1vi—Cs1—P1v98.03 (3)Cs2xx—Zr2—Cs1xix71.312 (12)
O3v—Cs2—O3iv99.38 (8)Cs2xxi—Zr2—Cs1xix164.863 (12)
O3v—Cs2—O3vi99.38 (8)O3i—Zr2—Cs1xx138.35 (9)
O3iv—Cs2—O3vi99.38 (8)O3ii—Zr2—Cs1xx49.90 (8)
O3v—Cs2—O2vii151.19 (8)O3iii—Zr2—Cs1xx78.40 (9)
O3iv—Cs2—O2vii99.17 (8)O4xiii—Zr2—Cs1xx122.28 (9)
O3vi—Cs2—O2vii99.10 (9)O4—Zr2—Cs1xx109.44 (9)
O3v—Cs2—O2viii99.10 (9)O4xiv—Zr2—Cs1xx40.01 (8)
O3iv—Cs2—O2viii151.19 (8)Cs2xix—Zr2—Cs1xx164.863 (12)
O3vi—Cs2—O2viii99.17 (8)Cs2xx—Zr2—Cs1xx53.119 (13)
O2vii—Cs2—O2viii56.13 (10)Cs2xxi—Zr2—Cs1xx71.312 (12)
O3v—Cs2—O2ix99.17 (8)Cs1xix—Zr2—Cs1xx119.6740 (10)
O3iv—Cs2—O2ix99.10 (9)O3i—Zr2—Cs1xxi78.40 (9)
O3vi—Cs2—O2ix151.19 (8)O3ii—Zr2—Cs1xxi138.35 (9)
O2vii—Cs2—O2ix56.13 (10)O3iii—Zr2—Cs1xxi49.90 (8)
O2viii—Cs2—O2ix56.13 (10)O4xiii—Zr2—Cs1xxi40.01 (8)
O3v—Cs2—O4iv115.29 (9)O4—Zr2—Cs1xxi122.28 (9)
O3iv—Cs2—O4iv47.14 (8)O4xiv—Zr2—Cs1xxi109.44 (9)
O3vi—Cs2—O4iv53.94 (8)Cs2xix—Zr2—Cs1xxi71.312 (12)
O2vii—Cs2—O4iv93.46 (8)Cs2xx—Zr2—Cs1xxi164.863 (12)
O2viii—Cs2—O4iv138.07 (8)Cs2xxi—Zr2—Cs1xxi53.119 (13)
O2ix—Cs2—O4iv133.36 (8)Cs1xix—Zr2—Cs1xxi119.6740 (10)
O3v—Cs2—O4vi53.94 (8)Cs1xx—Zr2—Cs1xxi119.6740 (10)
O3iv—Cs2—O4vi115.29 (9)O1—P1—O3110.99 (17)
O3vi—Cs2—O4vi47.14 (8)O1—P1—O4110.04 (17)
O2vii—Cs2—O4vi133.36 (8)O3—P1—O4110.15 (18)
O2viii—Cs2—O4vi93.46 (8)O1—P1—O2109.16 (18)
O2ix—Cs2—O4vi138.07 (8)O3—P1—O2108.61 (18)
O4iv—Cs2—O4vi88.54 (8)O4—P1—O2107.83 (18)
O3v—Cs2—O4v47.14 (8)O1—P1—Cs1xix170.80 (13)
O3iv—Cs2—O4v53.94 (8)O3—P1—Cs1xix78.20 (12)
O3vi—Cs2—O4v115.29 (9)O4—P1—Cs1xix65.00 (12)
O2vii—Cs2—O4v138.07 (8)O2—P1—Cs1xix66.79 (13)
O2viii—Cs2—O4v133.36 (8)O1—P1—Cs2xx83.10 (12)
O2ix—Cs2—O4v93.46 (8)O3—P1—Cs2xx165.07 (13)
O4iv—Cs2—O4v88.54 (8)O4—P1—Cs2xx67.48 (12)
O4vi—Cs2—O4v88.54 (8)O2—P1—Cs2xx60.28 (13)
O3v—Cs2—O4vii158.53 (8)Cs1xix—P1—Cs2xx87.78 (3)
O3iv—Cs2—O4vii85.52 (7)O1—P1—Cs2xix121.97 (12)
O3vi—Cs2—O4vii59.14 (8)O3—P1—Cs2xix51.41 (12)
O2vii—Cs2—O4vii45.17 (8)O4—P1—Cs2xix59.14 (13)
O2viii—Cs2—O4vii85.30 (8)O2—P1—Cs2xix128.76 (13)
O2ix—Cs2—O4vii100.67 (8)Cs1xix—P1—Cs2xix63.11 (2)
O4iv—Cs2—O4vii54.01 (11)Cs2xx—P1—Cs2xix125.90 (3)
O4vi—Cs2—O4vii105.023 (11)O1—P1—Cs1xvi47.77 (12)
O4v—Cs2—O4vii138.81 (6)O3—P1—Cs1xvi103.21 (12)
O3v—Cs2—O4viii59.14 (8)O4—P1—Cs1xvi145.64 (13)
O3iv—Cs2—O4viii158.53 (8)O2—P1—Cs1xvi67.61 (13)
O3vi—Cs2—O4viii85.52 (7)Cs1xix—P1—Cs1xvi132.05 (3)
O2vii—Cs2—O4viii100.67 (8)Cs2xx—P1—Cs1xvi82.32 (2)
O2viii—Cs2—O4viii45.17 (8)Cs2xix—P1—Cs1xvi151.05 (3)
O2ix—Cs2—O4viii85.30 (8)P1—O1—Zr1138.46 (18)
O4iv—Cs2—O4viii138.81 (6)P1—O1—Cs1xvi110.93 (15)
O4vi—Cs2—O4viii54.01 (11)Zr1—O1—Cs1xvi100.02 (10)
O4v—Cs2—O4viii105.023 (11)P1—O1—Cs2xx72.82 (11)
O4vii—Cs2—O4viii114.48 (4)Zr1—O1—Cs2xx134.17 (12)
O3v—Cs2—O4ix85.52 (7)Cs1xvi—O1—Cs2xx92.38 (7)
O3iv—Cs2—O4ix59.14 (8)P1—O2—Yb1xxii171.8 (2)
O3vi—Cs2—O4ix158.53 (8)P1—O2—Zr1xxii171.8 (2)
O2vii—Cs2—O4ix85.30 (8)P1—O2—Cs2xx94.44 (14)
O2viii—Cs2—O4ix100.67 (8)Yb1xxii—O2—Cs2xx92.33 (12)
O2ix—Cs2—O4ix45.17 (8)Zr1xxii—O2—Cs2xx92.33 (12)
O4iv—Cs2—O4ix105.023 (11)P1—O2—Cs1xix87.72 (14)
O4vi—Cs2—O4ix138.81 (6)Yb1xxii—O2—Cs1xix95.47 (11)
O4v—Cs2—O4ix54.01 (11)Zr1xxii—O2—Cs1xix95.47 (11)
O4vii—Cs2—O4ix114.48 (4)Cs2xx—O2—Cs1xix101.45 (9)
O4viii—Cs2—O4ix114.48 (4)P1—O2—Cs1xvi89.43 (13)
O2x—Zr1—O2xi90.05 (13)Yb1xxii—O2—Cs1xvi85.48 (10)
O2x—Zr1—O2xii90.05 (13)Zr1xxii—O2—Cs1xvi85.48 (10)
O2xi—Zr1—O2xii90.05 (13)Cs2xx—O2—Cs1xvi93.98 (8)
O2x—Zr1—O186.11 (12)Cs1xix—O2—Cs1xvi164.48 (11)
O2xi—Zr1—O194.86 (12)P1—O3—Yb2xvi155.9 (2)
O2xii—Zr1—O1173.76 (12)P1—O3—Zr2xvi155.9 (2)
O2x—Zr1—O1xiii94.86 (12)P1—O3—Cs2xix105.33 (15)
O2xi—Zr1—O1xiii173.76 (12)Yb2xvi—O3—Cs2xix97.24 (11)
O2xii—Zr1—O1xiii86.11 (12)Zr2xvi—O3—Cs2xix97.24 (11)
O1—Zr1—O1xiii89.31 (12)P1—O3—Cs1xix77.06 (13)
O2x—Zr1—O1xiv173.76 (12)Yb2xvi—O3—Cs1xix103.42 (10)
O2xi—Zr1—O1xiv86.11 (12)Zr2xvi—O3—Cs1xix103.42 (10)
O2xii—Zr1—O1xiv94.86 (12)Cs2xix—O3—Cs1xix70.13 (6)
O1—Zr1—O1xiv89.31 (12)P1—O4—Zr2155.41 (19)
O1xiii—Zr1—O1xiv89.31 (12)P1—O4—Cs1xix89.57 (13)
O2x—Zr1—Cs2xv54.77 (9)Zr2—O4—Cs1xix115.02 (11)
O2xi—Zr1—Cs2xv54.77 (9)P1—O4—Cs2xix96.86 (15)
O2xii—Zr1—Cs2xv54.77 (9)Zr2—O4—Cs2xix91.08 (10)
O1—Zr1—Cs2xv125.75 (9)Cs1xix—O4—Cs2xix72.56 (7)
O1xiii—Zr1—Cs2xv125.75 (9)P1—O4—Cs2xx87.25 (13)
O1xiv—Zr1—Cs2xv125.75 (9)Zr2—O4—Cs2xx88.86 (10)
O2x—Zr1—Cs1xvi63.74 (9)Cs1xix—O4—Cs2xx98.42 (8)
O2xi—Zr1—Cs1xvi53.80 (9)Cs2xix—O4—Cs2xx169.99 (10)
Symmetry codes: (i) y+1/2, z+1/2, x+1; (ii) x+1, y+1/2, z+1/2; (iii) z+1/2, x+1, y+1/2; (iv) x+3/2, y+1, z+1/2; (v) z+1/2, x+3/2, y+1; (vi) y+1, z+1/2, x+3/2; (vii) y+3/2, z+1, x+1/2; (viii) z+1, x+1/2, y+3/2; (ix) x+1/2, y+3/2, z+1; (x) y+1/2, z, x1/2; (xi) x1/2, y+1/2, z; (xii) z, x1/2, y+1/2; (xiii) y, z, x; (xiv) z, x, y; (xv) x1, y1, z1; (xvi) x+1, y1/2, z+1/2; (xvii) x1/2, y+1/2, z+1; (xviii) x+1/2, y+1, z1/2; (xix) x+3/2, y+1, z1/2; (xx) x1/2, y+3/2, z+1; (xxi) x+1, y1/2, z+3/2; (xxii) x+1/2, y+1/2, z.
(CsLuZrP) top
Crystal data top
Lu0.625O12P3Zr1.375·0.985(Cs)·0.640(Cs)Dx = 4.362 Mg m3
Mr = 735.89Mo Kα radiation, λ = 0.71073 Å
Cubic, P213Cell parameters from 3891 reflections
Hall symbol: P 2ac 2ab 3θ = 2.8–30.0°
a = 10.38651 (17) ŵ = 12.46 mm1
V = 1120.49 (3) Å3T = 293 K
Z = 4Tetrahedron, colourless
F(000) = 1319.30.08 × 0.07 × 0.06 mm
Data collection top
XCalibur-3
diffractometer		1104 independent reflections
Radiation source: fine focus sealed tube1053 reflections with I > 2σ(I)
Graphite monochromatorRint = 0.026
ϕ and ω scansθmax = 30.0°, θmin = 2.8°
Absorption correction: multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		h = 148
Tmin = 0.337, Tmax = 0.423k = 1310
3891 measured reflectionsl = 813
Refinement top
Refinement on F2Secondary atom site location: difference Fourier map
Least-squares matrix: full w = 1/[σ2(Fo2) + (0.0158P)2]
where P = (Fo2 + 2Fc2)/3
R[F2 > 2σ(F2)] = 0.016(Δ/σ)max = 0.001
wR(F2) = 0.033Δρmax = 0.49 e Å3
S = 1.09Δρmin = 0.48 e Å3
1104 reflectionsExtinction correction: SHELXL, Fc*=kFc[1+0.001xFc2λ3/sin(2θ)]-1/4
65 parametersExtinction coefficient: 0.00084 (15)
3 restraintsAbsolute structure: Flack H D (1983), Acta Cryst. A39, 876-881
Primary atom site location: structure-invariant direct methodsAbsolute structure parameter: 0.014 (16)
Crystal data top
Lu0.625O12P3Zr1.375·0.985(Cs)·0.640(Cs)Z = 4
Mr = 735.89Mo Kα radiation
Cubic, P213µ = 12.46 mm1
a = 10.38651 (17) ÅT = 293 K
V = 1120.49 (3) Å30.08 × 0.07 × 0.06 mm
Data collection top
XCalibur-3
diffractometer		1104 independent reflections
Absorption correction: multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		1053 reflections with I > 2σ(I)
Tmin = 0.337, Tmax = 0.423Rint = 0.026
3891 measured reflections
Refinement top
R[F2 > 2σ(F2)] = 0.0163 restraints
wR(F2) = 0.033Δρmax = 0.49 e Å3
S = 1.09Δρmin = 0.48 e Å3
1104 reflectionsAbsolute structure: Flack H D (1983), Acta Cryst. A39, 876-881
65 parametersAbsolute structure parameter: 0.014 (16)
Special details top

Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell e.s.d.'s are taken into account individually in the estimation of e.s.d.'s in distances, angles and torsion angles; correlations between e.s.d.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s. planes.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
Cs10.71340 (3)0.71340 (3)0.71340 (3)0.01932 (12)0.9853 (19)
Cs20.92876 (3)0.92876 (3)0.92876 (3)0.01340 (16)0.6412 (15)
Zr10.14267 (3)0.14267 (3)0.14267 (3)0.00908 (11)0.778 (2)
Zr20.41389 (2)0.41389 (2)0.41389 (2)0.00936 (10)0.5962 (9)
Lu10.14267 (3)0.14267 (3)0.14267 (3)0.00908 (11)0.222 (2)
Lu20.41389 (2)0.41389 (2)0.41389 (2)0.00936 (10)0.4037 (9)
P10.45795 (8)0.23029 (9)0.12443 (8)0.00892 (18)
O10.3143 (2)0.2301 (2)0.0844 (3)0.0156 (5)
O20.5374 (3)0.2954 (3)0.0177 (3)0.0168 (5)
O30.5066 (3)0.0920 (3)0.1436 (3)0.0169 (5)
O40.4763 (2)0.3085 (3)0.2486 (2)0.0158 (6)
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Cs10.01932 (12)0.01932 (12)0.01932 (12)0.00271 (10)0.00271 (10)0.00271 (10)
Cs20.01340 (16)0.01340 (16)0.01340 (16)0.00105 (12)0.00105 (12)0.00105 (12)
Zr10.00908 (11)0.00908 (11)0.00908 (11)0.00072 (9)0.00072 (9)0.00072 (9)
Zr20.00936 (10)0.00936 (10)0.00936 (10)0.00052 (8)0.00052 (8)0.00052 (8)
Lu10.00908 (11)0.00908 (11)0.00908 (11)0.00072 (9)0.00072 (9)0.00072 (9)
Lu20.00936 (10)0.00936 (10)0.00936 (10)0.00052 (8)0.00052 (8)0.00052 (8)
P10.0087 (4)0.0098 (4)0.0083 (4)0.0000 (3)0.0008 (3)0.0001 (3)
O10.0122 (12)0.0183 (13)0.0164 (13)0.0023 (9)0.0025 (10)0.0005 (11)
O20.0187 (14)0.0159 (13)0.0159 (13)0.0014 (11)0.0077 (10)0.0013 (11)
O30.0198 (13)0.0133 (12)0.0177 (13)0.0045 (11)0.0006 (11)0.0021 (10)
O40.0154 (13)0.0204 (14)0.0115 (12)0.0011 (10)0.0013 (10)0.0045 (10)
Geometric parameters (Å, º) top
Cs1—O1i3.111 (3)Zr2—O3i2.112 (3)
Cs1—O1ii3.111 (3)Zr2—O3ii2.112 (3)
Cs1—O1iii3.111 (3)Zr2—O3iii2.112 (3)
Cs1—O4iv3.251 (3)Zr2—O4x2.137 (3)
Cs1—O4v3.251 (3)Zr2—O42.137 (3)
Cs1—O4vi3.251 (3)Zr2—O4xi2.137 (3)
Cs1—O2vi3.293 (3)Zr2—Cs2xix3.9193 (2)
Cs1—O2iv3.293 (3)Zr2—Cs2xx3.9193 (2)
Cs1—O2v3.293 (3)Zr2—Cs2xxi3.9193 (2)
Cs1—P1iv3.5845 (9)Zr2—Cs1xix4.5902 (3)
Cs1—P1vi3.5845 (9)Zr2—Cs1xx4.5902 (3)
Cs1—P1v3.5845 (9)Zr2—Cs1xxi4.5902 (3)
Cs2—O3v3.045 (3)P1—O31.535 (3)
Cs2—O3vi3.045 (3)P1—O41.536 (3)
Cs2—O3iv3.045 (3)P1—O21.539 (3)
Cs2—O2vii3.129 (3)P1—O11.549 (3)
Cs2—O2viii3.129 (3)P1—Cs1xix3.5845 (9)
Cs2—O2ix3.129 (3)P1—Cs2xx3.5970 (9)
Cs2—O4iv3.247 (3)P1—Cs2xix3.7557 (10)
Cs2—O4v3.247 (3)P1—Cs1xviii3.9382 (9)
Cs2—O4vi3.247 (3)O1—Cs1xviii3.111 (3)
Cs2—O4vii3.329 (3)O1—Cs2xx3.739 (3)
Cs2—O4ix3.329 (3)O2—Lu1xxii2.094 (3)
Cs2—O4viii3.329 (3)O2—Zr1xxii2.094 (3)
Zr1—O1x2.090 (3)O2—Cs2xx3.129 (3)
Zr1—O12.090 (3)O2—Cs1xix3.293 (3)
Zr1—O1xi2.090 (3)O2—Cs1xviii3.643 (3)
Zr1—O2xii2.094 (3)O3—Lu2xviii2.112 (3)
Zr1—O2xiii2.094 (3)O3—Zr2xviii2.112 (3)
Zr1—O2xiv2.094 (3)O3—Cs2xix3.045 (3)
Zr1—Cs2xv3.8483 (7)O3—Cs1xix3.615 (3)
Zr1—Cs1xvi4.0561 (2)O4—Cs2xix3.247 (3)
Zr1—Cs1xvii4.0561 (2)O4—Cs1xix3.251 (3)
Zr1—Cs1xviii4.0561 (2)O4—Cs2xx3.329 (3)
O1i—Cs1—O1ii88.21 (7)O1xi—Zr1—Cs1xvi132.05 (7)
O1i—Cs1—O1iii88.21 (7)O2xii—Zr1—Cs1xvi53.95 (8)
O1ii—Cs1—O1iii88.21 (7)O2xiii—Zr1—Cs1xvi63.55 (8)
O1i—Cs1—O4iv83.42 (7)O2xiv—Zr1—Cs1xvi131.90 (7)
O1ii—Cs1—O4iv101.97 (6)Cs2xv—Zr1—Cs1xvi77.933 (6)
O1iii—Cs1—O4iv166.56 (6)O1x—Zr1—Cs1xvii110.40 (7)
O1i—Cs1—O4v166.56 (6)O1—Zr1—Cs1xvii132.05 (7)
O1ii—Cs1—O4v83.42 (7)O1xi—Zr1—Cs1xvii48.93 (7)
O1iii—Cs1—O4v101.97 (6)O2xii—Zr1—Cs1xvii131.90 (7)
O4iv—Cs1—O4v88.04 (7)O2xiii—Zr1—Cs1xvii53.95 (8)
O1i—Cs1—O4vi101.97 (6)O2xiv—Zr1—Cs1xvii63.55 (8)
O1ii—Cs1—O4vi166.56 (6)Cs2xv—Zr1—Cs1xvii77.933 (6)
O1iii—Cs1—O4vi83.42 (7)Cs1xvi—Zr1—Cs1xvii115.750 (4)
O4iv—Cs1—O4vi88.04 (7)O1x—Zr1—Cs1xviii132.05 (7)
O4v—Cs1—O4vi88.04 (7)O1—Zr1—Cs1xviii48.93 (7)
O1i—Cs1—O2vi57.36 (6)O1xi—Zr1—Cs1xviii110.40 (7)
O1ii—Cs1—O2vi144.44 (7)O2xii—Zr1—Cs1xviii63.55 (8)
O1iii—Cs1—O2vi82.60 (6)O2xiii—Zr1—Cs1xviii131.90 (8)
O4iv—Cs1—O2vi84.03 (6)O2xiv—Zr1—Cs1xviii53.95 (8)
O4v—Cs1—O2vi132.07 (7)Cs2xv—Zr1—Cs1xviii77.933 (6)
O4vi—Cs1—O2vi44.62 (6)Cs1xvi—Zr1—Cs1xviii115.750 (4)
O1i—Cs1—O2iv82.60 (6)Cs1xvii—Zr1—Cs1xviii115.750 (4)
O1ii—Cs1—O2iv57.36 (6)O3i—Zr2—O3ii90.89 (10)
O1iii—Cs1—O2iv144.44 (7)O3i—Zr2—O3iii90.89 (10)
O4iv—Cs1—O2iv44.62 (6)O3ii—Zr2—O3iii90.89 (10)
O4v—Cs1—O2iv84.03 (6)O3i—Zr2—O4x95.91 (10)
O4vi—Cs1—O2iv132.07 (7)O3ii—Zr2—O4x171.81 (10)
O2vi—Cs1—O2iv119.344 (13)O3iii—Zr2—O4x84.47 (10)
O1i—Cs1—O2v144.44 (7)O3i—Zr2—O484.47 (10)
O1ii—Cs1—O2v82.60 (6)O3ii—Zr2—O495.91 (10)
O1iii—Cs1—O2v57.36 (6)O3iii—Zr2—O4171.81 (10)
O4iv—Cs1—O2v132.07 (7)O4x—Zr2—O489.30 (10)
O4v—Cs1—O2v44.62 (6)O3i—Zr2—O4xi171.81 (10)
O4vi—Cs1—O2v84.03 (6)O3ii—Zr2—O4xi84.47 (10)
O2vi—Cs1—O2v119.344 (13)O3iii—Zr2—O4xi95.91 (10)
O2iv—Cs1—O2v119.344 (13)O4x—Zr2—O4xi89.30 (10)
O1i—Cs1—P1iv94.88 (5)O4—Zr2—O4xi89.30 (10)
O1ii—Cs1—P1iv79.79 (5)O3i—Zr2—Cs2xix50.41 (7)
O1iii—Cs1—P1iv167.49 (5)O3ii—Zr2—Cs2xix130.05 (7)
O4iv—Cs1—P1iv25.38 (5)O3iii—Zr2—Cs2xix116.00 (7)
O4v—Cs1—P1iv73.33 (5)O4x—Zr2—Cs2xix58.14 (7)
O4vi—Cs1—P1iv107.69 (5)O4—Zr2—Cs2xix55.94 (7)
O2vi—Cs1—P1iv109.27 (5)O4xi—Zr2—Cs2xix129.11 (7)
O2iv—Cs1—P1iv25.40 (5)O3i—Zr2—Cs2xx116.00 (7)
O2v—Cs1—P1iv116.90 (5)O3ii—Zr2—Cs2xx50.41 (7)
O1i—Cs1—P1vi79.79 (5)O3iii—Zr2—Cs2xx130.05 (7)
O1ii—Cs1—P1vi167.49 (5)O4x—Zr2—Cs2xx129.11 (7)
O1iii—Cs1—P1vi94.88 (5)O4—Zr2—Cs2xx58.14 (7)
O4iv—Cs1—P1vi73.33 (5)O4xi—Zr2—Cs2xx55.94 (7)
O4v—Cs1—P1vi107.69 (5)Cs2xix—Zr2—Cs2xx113.454 (5)
O4vi—Cs1—P1vi25.38 (5)O3i—Zr2—Cs2xxi130.05 (7)
O2vi—Cs1—P1vi25.40 (5)O3ii—Zr2—Cs2xxi116.00 (7)
O2iv—Cs1—P1vi116.90 (5)O3iii—Zr2—Cs2xxi50.41 (7)
O2v—Cs1—P1vi109.27 (5)O4x—Zr2—Cs2xxi55.94 (7)
P1iv—Cs1—P1vi97.60 (2)O4—Zr2—Cs2xxi129.11 (7)
O1i—Cs1—P1v167.49 (5)O4xi—Zr2—Cs2xxi58.14 (7)
O1ii—Cs1—P1v94.88 (5)Cs2xix—Zr2—Cs2xxi113.454 (5)
O1iii—Cs1—P1v79.79 (5)Cs2xx—Zr2—Cs2xxi113.454 (5)
O4iv—Cs1—P1v107.69 (5)O3i—Zr2—Cs1xix50.01 (7)
O4v—Cs1—P1v25.38 (5)O3ii—Zr2—Cs1xix78.13 (8)
O4vi—Cs1—P1v73.33 (5)O3iii—Zr2—Cs1xix138.44 (7)
O2vi—Cs1—P1v116.90 (5)O4x—Zr2—Cs1xix109.77 (7)
O2iv—Cs1—P1v109.27 (5)O4—Zr2—Cs1xix39.83 (7)
O2v—Cs1—P1v25.40 (5)O4xi—Zr2—Cs1xix122.18 (7)
P1iv—Cs1—P1v97.60 (2)Cs2xix—Zr2—Cs1xix53.463 (9)
P1vi—Cs1—P1v97.60 (2)Cs2xx—Zr2—Cs1xix71.030 (8)
O3v—Cs2—O3vi99.28 (7)Cs2xxi—Zr2—Cs1xix165.090 (9)
O3v—Cs2—O3iv99.28 (7)O3i—Zr2—Cs1xx138.44 (7)
O3vi—Cs2—O3iv99.28 (7)O3ii—Zr2—Cs1xx50.01 (7)
O3v—Cs2—O2vii151.29 (7)O3iii—Zr2—Cs1xx78.13 (7)
O3vi—Cs2—O2vii99.11 (7)O4x—Zr2—Cs1xx122.18 (7)
O3iv—Cs2—O2vii99.29 (7)O4—Zr2—Cs1xx109.77 (7)
O3v—Cs2—O2viii99.11 (7)O4xi—Zr2—Cs1xx39.83 (7)
O3vi—Cs2—O2viii99.29 (7)Cs2xix—Zr2—Cs1xx165.090 (9)
O3iv—Cs2—O2viii151.29 (7)Cs2xx—Zr2—Cs1xx53.463 (9)
O2vii—Cs2—O2viii56.15 (8)Cs2xxi—Zr2—Cs1xx71.030 (8)
O3v—Cs2—O2ix99.29 (7)Cs1xix—Zr2—Cs1xx119.6590 (10)
O3vi—Cs2—O2ix151.29 (7)O3i—Zr2—Cs1xxi78.13 (8)
O3iv—Cs2—O2ix99.11 (7)O3ii—Zr2—Cs1xxi138.44 (7)
O2vii—Cs2—O2ix56.15 (8)O3iii—Zr2—Cs1xxi50.01 (7)
O2viii—Cs2—O2ix56.15 (8)O4x—Zr2—Cs1xxi39.83 (7)
O3v—Cs2—O4iv114.95 (7)O4—Zr2—Cs1xxi122.18 (7)
O3vi—Cs2—O4iv53.87 (7)O4xi—Zr2—Cs1xxi109.77 (7)
O3iv—Cs2—O4iv47.05 (7)Cs2xix—Zr2—Cs1xxi71.030 (8)
O2vii—Cs2—O4iv93.71 (7)Cs2xx—Zr2—Cs1xxi165.090 (9)
O2viii—Cs2—O4iv138.35 (7)Cs2xxi—Zr2—Cs1xxi53.463 (9)
O2ix—Cs2—O4iv133.46 (7)Cs1xix—Zr2—Cs1xxi119.6590 (10)
O3v—Cs2—O4v47.05 (7)Cs1xx—Zr2—Cs1xxi119.6590 (10)
O3vi—Cs2—O4v114.95 (8)O3—P1—O4110.18 (16)
O3iv—Cs2—O4v53.87 (7)O3—P1—O2109.17 (15)
O2vii—Cs2—O4v138.35 (7)O4—P1—O2107.80 (15)
O2viii—Cs2—O4v133.46 (7)O3—P1—O1110.54 (14)
O2ix—Cs2—O4v93.71 (7)O4—P1—O1110.22 (15)
O4iv—Cs2—O4v88.17 (7)O2—P1—O1108.87 (15)
O3v—Cs2—O4vi53.87 (7)O3—P1—Cs1xix78.81 (10)
O3vi—Cs2—O4vi47.05 (7)O4—P1—Cs1xix65.10 (10)
O3iv—Cs2—O4vi114.95 (8)O2—P1—Cs1xix66.63 (11)
O2vii—Cs2—O4vi133.46 (7)O1—P1—Cs1xix170.65 (11)
O2viii—Cs2—O4vi93.71 (7)O3—P1—Cs2xx165.59 (11)
O2ix—Cs2—O4vi138.35 (7)O4—P1—Cs2xx67.59 (11)
O4iv—Cs2—O4vi88.17 (7)O2—P1—Cs2xx60.10 (10)
O4v—Cs2—O4vi88.17 (7)O1—P1—Cs2xx83.02 (10)
O3v—Cs2—O4vii158.42 (7)Cs1xix—P1—Cs2xx87.66 (2)
O3vi—Cs2—O4vii59.15 (7)O3—P1—Cs2xix51.42 (10)
O3iv—Cs2—O4vii85.66 (7)O4—P1—Cs2xix59.14 (11)
O2vii—Cs2—O4vii45.12 (7)O2—P1—Cs2xix129.19 (11)
O2viii—Cs2—O4vii85.29 (7)O1—P1—Cs2xix121.83 (11)
O2ix—Cs2—O4vii100.64 (7)Cs1xix—P1—Cs2xix63.667 (18)
O4iv—Cs2—O4vii54.33 (9)Cs2xx—P1—Cs2xix126.07 (2)
O4v—Cs2—O4vii138.84 (5)O3—P1—Cs1xviii102.86 (11)
O4vi—Cs2—O4vii104.959 (8)O4—P1—Cs1xviii145.87 (11)
O3v—Cs2—O4ix85.66 (7)O2—P1—Cs1xviii67.66 (10)
O3vi—Cs2—O4ix158.42 (7)O1—P1—Cs1xviii47.58 (10)
O3iv—Cs2—O4ix59.15 (7)Cs1xix—P1—Cs1xviii131.86 (2)
O2vii—Cs2—O4ix85.29 (7)Cs2xx—P1—Cs1xviii82.469 (19)
O2viii—Cs2—O4ix100.64 (7)Cs2xix—P1—Cs1xviii150.68 (3)
O2ix—Cs2—O4ix45.12 (7)P1—O1—Zr1138.09 (16)
O4iv—Cs2—O4ix104.959 (8)P1—O1—Cs1xviii110.86 (13)
O4v—Cs2—O4ix54.33 (9)Zr1—O1—Cs1xviii100.64 (9)
O4vi—Cs2—O4ix138.84 (5)P1—O1—Cs2xx72.70 (10)
O4vii—Cs2—O4ix114.46 (3)Zr1—O1—Cs2xx133.90 (10)
O3v—Cs2—O4viii59.15 (7)Cs1xviii—O1—Cs2xx92.64 (6)
O3vi—Cs2—O4viii85.66 (7)P1—O2—Lu1xxii171.22 (17)
O3iv—Cs2—O4viii158.42 (7)P1—O2—Zr1xxii171.22 (17)
O2vii—Cs2—O4viii100.64 (7)P1—O2—Cs2xx94.66 (11)
O2viii—Cs2—O4viii45.12 (7)Lu1xxii—O2—Cs2xx92.79 (9)
O2ix—Cs2—O4viii85.29 (7)Zr1xxii—O2—Cs2xx92.79 (9)
O4iv—Cs2—O4viii138.84 (5)P1—O2—Cs1xix87.97 (12)
O4v—Cs2—O4viii104.959 (8)Lu1xxii—O2—Cs1xix95.10 (9)
O4vi—Cs2—O4viii54.33 (9)Zr1xxii—O2—Cs1xix95.10 (9)
O4vii—Cs2—O4viii114.46 (3)Cs2xx—O2—Cs1xix101.49 (7)
O4ix—Cs2—O4viii114.46 (3)P1—O2—Cs1xviii89.34 (11)
O1x—Zr1—O190.12 (11)Lu1xxii—O2—Cs1xviii85.48 (8)
O1x—Zr1—O1xi90.12 (11)Zr1xxii—O2—Cs1xviii85.48 (8)
O1—Zr1—O1xi90.12 (11)Cs2xx—O2—Cs1xviii94.21 (7)
O1x—Zr1—O2xii94.69 (10)Cs1xix—O2—Cs1xviii164.23 (9)
O1—Zr1—O2xii86.14 (10)P1—O3—Lu2xviii155.69 (18)
O1xi—Zr1—O2xii173.91 (10)P1—O3—Zr2xviii155.69 (18)
O1x—Zr1—O2xiii86.14 (10)P1—O3—Cs2xix105.37 (13)
O1—Zr1—O2xiii173.91 (10)Lu2xviii—O3—Cs2xix97.27 (9)
O1xi—Zr1—O2xiii94.69 (10)Zr2xviii—O3—Cs2xix97.27 (9)
O2xii—Zr1—O2xiii89.38 (10)P1—O3—Cs1xix76.58 (10)
O1x—Zr1—O2xiv173.91 (10)Lu2xviii—O3—Cs1xix103.40 (9)
O1—Zr1—O2xiv94.69 (10)Zr2xviii—O3—Cs1xix103.40 (9)
O1xi—Zr1—O2xiv86.14 (10)Cs2xix—O3—Cs1xix70.55 (5)
O2xii—Zr1—O2xiv89.38 (10)P1—O4—Zr2155.19 (16)
O2xiii—Zr1—O2xiv89.38 (10)P1—O4—Cs2xix96.90 (12)
O1x—Zr1—Cs2xv125.18 (7)Zr2—O4—Cs2xix91.03 (9)
O1—Zr1—Cs2xv125.18 (7)P1—O4—Cs1xix89.53 (11)
O1xi—Zr1—Cs2xv125.18 (7)Zr2—O4—Cs1xix115.28 (9)
O2xii—Zr1—Cs2xv54.30 (7)Cs2xix—O4—Cs1xix73.19 (6)
O2xiii—Zr1—Cs2xv54.30 (7)P1—O4—Cs2xx87.16 (11)
O2xiv—Zr1—Cs2xv54.30 (7)Zr2—O4—Cs2xx88.83 (9)
O1x—Zr1—Cs1xvi48.93 (7)Cs2xix—O4—Cs2xx170.35 (9)
O1—Zr1—Cs1xvi110.40 (7)Cs1xix—O4—Cs2xx98.18 (7)
Symmetry codes: (i) y+1/2, z+1/2, x+1; (ii) x+1, y+1/2, z+1/2; (iii) z+1/2, x+1, y+1/2; (iv) x+3/2, y+1, z+1/2; (v) z+1/2, x+3/2, y+1; (vi) y+1, z+1/2, x+3/2; (vii) y+3/2, z+1, x+1/2; (viii) z+1, x+1/2, y+3/2; (ix) x+1/2, y+3/2, z+1; (x) y, z, x; (xi) z, x, y; (xii) y+1/2, z, x1/2; (xiii) z, x1/2, y+1/2; (xiv) x1/2, y+1/2, z; (xv) x1, y1, z1; (xvi) x1/2, y+1/2, z+1; (xvii) x+1/2, y+1, z1/2; (xviii) x+1, y1/2, z+1/2; (xix) x+3/2, y+1, z1/2; (xx) x1/2, y+3/2, z+1; (xxi) x+1, y1/2, z+3/2; (xxii) x+1/2, y+1/2, z.

Experimental details

(CsEuZrP)(CsGdZrP)(CsTbZrP)(CsDyZrP)
Crystal data
Chemical formulaEu0.805O12P3Zr1.195·0.994(Cs)·0.812(Cs)Gd0.793O12P3Zr1.207·1.01(Cs)·0.783(Cs)O12P3Tb0.87Zr1.13·1(Cs)·0.87(Cs)Dy0.67O12P3Zr1.33·0.991(Cs)·0.676(Cs)
Mr756.34757.86775.00736.46
Crystal system, space groupCubic, P213Cubic, P213Cubic, P213Cubic, P213
Temperature (K)293293293293
a (Å)10.4969 (1) 10.4752 (5) 10.4920 (12) 10.4290 (1)
V3)1156.60 (2)1149.44 (10)1155.0 (2)1134.30 (2)
Z4444
Radiation typeMo KαMo KαMo KαMo Kα
µ (mm1)11.4811.7012.5911.34
Crystal size (mm)0.07 × 0.06 × 0.040.08 × 0.07 × 0.050.1 × 0.08 × 0.070.14 × 0.1 × 0.08
Data collection
DiffractometerXCalibur-3
diffractometer		XCalibur-3
diffractometer		XCalibur-3
diffractometer		XCalibur-3
diffractometer
Absorption correctionMulti-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		Multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		Multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		Multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]
Tmin, Tmax0.415, 0.5420.463, 0.6000.294, 0.4320.317, 0.433
No. of measured, independent and
observed [I > 2σ(I)] reflections		7245, 1137, 1094 13339, 1127, 1125 8906, 942, 923 5951, 1108, 1068
Rint0.0310.0330.0370.054
(sin θ/λ)max1)0.7030.7030.6640.701
Refinement
R[F2 > 2σ(F2)], wR(F2), S 0.017, 0.029, 1.17 0.012, 0.029, 1.37 0.017, 0.048, 1.25 0.031, 0.070, 1.16
No. of reflections113711279421108
No. of parameters65656464
No. of restraints3333
Δρmax, Δρmin (e Å3)0.47, 0.620.56, 0.450.87, 0.900.90, 0.98
Absolute structureFlack H D (1983), Acta Cryst. A39, 876-881Flack H D (1983), Acta Cryst. A39, 876-881Flack H D (1983), Acta Cryst. A39, 876-881Flack H D (1983), Acta Cryst. A39, 876-881
Absolute structure parameter0.01 (2)0.012 (19)0.02 (3)0.01 (4)


(CsHoZrP)(CsErZrP)(CsTmZrP)(CsYbZrP)
Crystal data
Chemical formulaHo0.745O12P3Zr1.255·0.995(Cs)·0.75(Cs)Er0.775O12P3Zr1.225·1(Cs)·0.775(Cs)O12P3Tm0.70Zr1.3·1(Cs)·0.70(Cs)O12P3Yb0.515Zr1.485·0.988(Cs)·0.527(Cs)
Mr754.40762.12748.46710.85
Crystal system, space groupCubic, P213Cubic, P213Cubic, P213Cubic, P213
Temperature (K)293293293293
a (Å)10.4372 (1) 10.4142 (2) 10.3982 (1) 10.3616 (1)
V3)1136.98 (2)1129.48 (4)1124.28 (2)1112.45 (2)
Z4444
Radiation typeMo KαMo KαMo KαMo Kα
µ (mm1)12.2912.9712.6411.07
Crystal size (mm)0.12 × 0.1 × 0.090.08 × 0.07 × 0.050.05 × 0.05 × 0.040.07 × 0.06 × 0.04
Data collection
DiffractometerXCalibur-3
diffractometer		XCalibur-3
diffractometer		XCalibur-3
diffractometer		XCalibur-3
diffractometer
Absorption correctionMulti-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		Multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		Multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]		Multi-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]
Tmin, Tmax0.319, 0.4030.429, 0.5690.560, 0.6220.516, 0.669
No. of measured, independent and
observed [I > 2σ(I)] reflections		4066, 1108, 1043 5508, 1108, 1065 4789, 1093, 1048 4844, 1096, 981
Rint0.0320.0380.0330.036
(sin θ/λ)max1)0.7010.7020.7030.703
Refinement
R[F2 > 2σ(F2)], wR(F2), S 0.024, 0.043, 1.21 0.026, 0.042, 1.29 0.025, 0.040, 1.20 0.020, 0.035, 0.96
No. of reflections1108110810931096
No. of parameters65646464
No. of restraints3333
Δρmax, Δρmin (e Å3)0.75, 0.680.88, 0.960.74, 0.810.75, 0.70
Absolute structureFlack H D (1983), Acta Cryst. A39, 876-881Flack H D (1983), Acta Cryst. A39, 876-881Flack H D (1983), Acta Cryst. A39, 876-881Flack H D (1983), Acta Cryst. A39, 876-881
Absolute structure parameter0.00 (3)0.05 (3)0.01 (2)0.02 (2)


(CsLuZrP)
Crystal data
Chemical formulaLu0.625O12P3Zr1.375·0.985(Cs)·0.640(Cs)
Mr735.89
Crystal system, space groupCubic, P213
Temperature (K)293
a (Å)10.38651 (17)
V3)1120.49 (3)
Z4
Radiation typeMo Kα
µ (mm1)12.46
Crystal size (mm)0.08 × 0.07 × 0.06
Data collection
DiffractometerXCalibur-3
diffractometer
Absorption correctionMulti-scan
[c.f. r.h. blessing, acta cryst. (1995), a51, 33-38]
Tmin, Tmax0.337, 0.423
No. of measured, independent and
observed [I > 2σ(I)] reflections		3891, 1104, 1053
Rint0.026
(sin θ/λ)max1)0.703
Refinement
R[F2 > 2σ(F2)], wR(F2), S 0.016, 0.033, 1.09
No. of reflections1104
No. of parameters65
No. of restraints3
Δρmax, Δρmin (e Å3)0.49, 0.48
Absolute structureFlack H D (1983), Acta Cryst. A39, 876-881
Absolute structure parameter0.014 (16)

Computer programs: CrysAlis CCD (Oxford Diffraction Ltd., 2005), CrysAlis RED (Oxford Diffraction Ltd., 2005), SHELXS97 (Sheldrick, 1997), SHELXL97 (Sheldrick, 1997), DIAMOND (Brandenburg, 2006), WinGX publication routines (Farrugia, 1999).

Selected bond lengths (Å) for (CsEuZrP) top
Zr1—O12.120 (3)Zr2—O3iii2.169 (3)
Zr1—O2i2.139 (3)Zr2—O42.196 (3)
Zr1—Cs2ii3.9376 (6)
Symmetry codes: (i) x1/2, y+1/2, z; (ii) x1, y1, z1; (iii) x+1, y+1/2, z+1/2.
Selected bond lengths (Å) for (CsGdZrP) top
Zr1—O12.114 (3)Zr2—O3iii2.160 (2)
Zr1—O2i2.128 (2)Zr2—O42.182 (2)
Zr1—Cs2ii3.9207 (6)
Symmetry codes: (i) x1/2, y+1/2, z; (ii) x1, y1, z1; (iii) x+1, y+1/2, z+1/2.
Selected bond lengths (Å) for (CsTbZrP) top
Zr1—O12.119 (4)Zr2—O3iii2.156 (4)
Zr1—O2i2.137 (4)Zr2—O42.186 (4)
Zr1—Cs2ii3.9287 (10)
Symmetry codes: (i) x1/2, y+1/2, z; (ii) x1, y1, z1; (iii) x+1, y+1/2, z+1/2.
Selected bond lengths (Å) for (CsDyZrP) top
Zr1—O12.089 (5)Zr2—O3iii2.142 (5)
Zr1—O2i2.107 (5)Zr2—O42.157 (5)
Zr1—Cs2ii3.8848 (12)
Symmetry codes: (i) x1/2, y+1/2, z; (ii) x1, y1, z1; (iii) x+1, y+1/2, z+1/2.
Selected bond lengths (Å) for (CsHoZrP) top
Zr1—O12.106 (4)Zr2—O3iii2.143 (4)
Zr1—O2i2.114 (4)Zr2—O42.159 (4)
Zr1—Cs2ii3.8948 (10)
Symmetry codes: (i) x1/2, y+1/2, z; (ii) x1, y1, z1; (iii) x+1, y+1/2, z+1/2.
Selected bond lengths (Å) for (CsErZrP) top
Zr1—O12.102 (4)Zr2—O3iii2.130 (4)
Zr1—O2i2.111 (4)Zr2—O42.151 (4)
Zr1—Cs2ii3.8825 (10)
Symmetry codes: (i) x1/2, y+1/2, z; (ii) x1, y1, z1; (iii) x+1, y+1/2, z+1/2.
Selected bond lengths (Å) for (CsTmZrP) top
Zr1—O12.098 (4)Zr2—O3iii2.116 (4)
Zr1—O2i2.101 (4)Zr2—O42.146 (4)
Zr1—Cs2ii3.8641 (10)
Symmetry codes: (i) x1/2, y+1/2, z; (ii) x1, y1, z1; (iii) x+1, y+1/2, z+1/2.
Selected bond lengths (Å) for (CsYbZrP) top
Zr1—O2i2.081 (3)Zr2—O3iii2.107 (3)
Zr1—O12.093 (3)Zr2—O42.126 (3)
Zr1—Cs2ii3.8269 (11)
Symmetry codes: (i) x1/2, y+1/2, z; (ii) x1, y1, z1; (iii) x+1, y+1/2, z+1/2.
Selected bond lengths (Å) for (CsLuZrP) top
Zr1—O12.090 (3)Zr2—O3iii2.112 (3)
Zr1—O2i2.094 (3)Zr2—O42.137 (3)
Zr1—Cs2ii3.8483 (7)
Symmetry codes: (i) x1/2, y+1/2, z; (ii) x1, y1, z1; (iii) x+1, y+1/2, z+1/2.
 

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