Rapid structure determination of the hydrogen-containing compound Cs2C2O4·H2O by joint single-crystal X-ray and powder neutron diffraction

Weller, M.T.; Henry, P.F.; Light, M.E.

doi:10.1107/S0108768107014826

Rapid structure determination of the hydrogen-containing compound Cs₂C₂O₄·H₂O by joint single-crystal X-ray and powder neutron diffraction

M. T. Weller, P. F. Henry and M. E. Light

The structure determination of caesium oxalate monohydrate using single-crystal X-ray diffraction, powder neutron diffraction data and a combination of both has been undertaken. Results show that even for hydrogen-containing materials data collected rapidly on a high-flux neutron diffractometer improve the refinement such that accurate positional and thermal displacement parameters can be extracted for all atom types. This contrasts with structural models extracted from either data set alone that demonstrate the inherent limitations of the individual diffraction methods. The rapidity with which useful neutron diffraction data has been collected from hydrogen-containing compounds, 10 min in this study, indicates that the technique should be widely applicable allowing the facile and accurate extraction of hydrogen positions for many compounds.

Keywords: hydrogen; neutron diffraction; combined data-set analysis.

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Supporting information

Crystallographic Information File (CIF) https://doi.org/10.1107/S0108768107014826/bk5052sup1.cif
Contains datablocks 06mtw0002, CSOXJOINTRT_publ, CSOXNEUT10MINS_publ, CSSXDRT_publ, CSOXJOINTRT_phase_1, CSOXJOINTRT_p_01, CSOXJOINTRT_s_02, CSOXJOINTRT_overall

CCDC references: 650633; 650634; 650635; 650636

Computing details top

Data collection: COLLECT (Hooft, R.W.W., 1998) for 06mtw0002. Cell refinement: DENZO (Otwinowski & Minor, 1997) & COLLECT (Hooft, R.W.W., 1998) for 06mtw0002. Data reduction: DENZO (Otwinowski & Minor, 1997) & COLLECT (Hooft, R.W.W., 1998) for 06mtw0002. Program(s) used to solve structure: SHELXS97 (Sheldrick, 1997) for 06mtw0002. Program(s) used to refine structure: SHELXL97 (Sheldrick, 1997) for 06mtw0002; GSAS for CSOXNEUT10MINS_publ, CSSXDRT_publ. Molecular graphics: CAMERON (Watkin, et al., 1993) for 06mtw0002. Software used to prepare material for publication: WinGX (Farrugia, 1998) for 06mtw0002.

Figures top

(06mtw0002) top

Crystal data top

C₂H₂Cs₂O₅	F(000) = 656
M_r = 371.86	D_x = 3.416 Mg m⁻³
Monoclinic, C2/c	Mo Kα radiation, λ = 0.71073 Å
a = 10.0748 (5) Å	Cell parameters from 869 reflections
b = 6.6473 (3) Å	θ = 1.0–27.5°
c = 11.2997 (6) Å	µ = 10.04 mm⁻¹
β = 107.189 (3)°	T = 289 K
V = 722.94 (6) Å³	Block, colourless
Z = 4	0.2 × 0.11 × 0.07 mm

Data collection top

Bruker-Nonius CCD camera on κ-goniostat diffractometer	809 independent reflections
Radiation source: Bruker Nonius FR591 Rotating Anode	700 reflections with I > 2σ(I)
Graphite monochromator	R_int = 0.067
Detector resolution: 9.091 pixels mm^-1	θ_max = 27.3°, θ_min = 3.7°
ϕ & ω scans to fill the asymmetric unit	h = −12→12
Absorption correction: multi-scan SADABS V2.10 (Sheldrick, G.M., 2003)	k = −8→8
T_min = 0.206, T_max = 0.501	l = −14→14
4032 measured reflections

Refinement top

Refinement on F²	Secondary atom site location: difference Fourier map
Least-squares matrix: full	Hydrogen site location: inferred from neighbouring sites
R[F² > 2σ(F²)] = 0.025	All H-atom parameters refined
wR(F²) = 0.054	w = 1/[σ²(F_o²) + (0.0142P)² + 1.827P] where P = (F_o² + 2F_c²)/3
S = 1.17	(Δ/σ)_max = 0.001
809 reflections	Δρ_max = 0.96 e Å⁻³
47 parameters	Δρ_min = −0.90 e Å⁻³
0 restraints	Extinction correction: SHELXL, Fc^*=kFc[1+0.001xFc²λ³/sin(2θ)]^-1/4
Primary atom site location: structure-invariant direct methods	Extinction coefficient: 0.0034 (2)

Crystal data top

C₂H₂Cs₂O₅	V = 722.94 (6) Å³
M_r = 371.86	Z = 4
Monoclinic, C2/c	Mo Kα radiation
a = 10.0748 (5) Å	µ = 10.04 mm⁻¹
b = 6.6473 (3) Å	T = 289 K
c = 11.2997 (6) Å	0.2 × 0.11 × 0.07 mm
β = 107.189 (3)°

Data collection top

Bruker-Nonius CCD camera on κ-goniostat diffractometer	809 independent reflections
Absorption correction: multi-scan SADABS V2.10 (Sheldrick, G.M., 2003)	700 reflections with I > 2σ(I)
T_min = 0.206, T_max = 0.501	R_int = 0.067
4032 measured reflections

Refinement top

R[F² > 2σ(F²)] = 0.025	0 restraints
wR(F²) = 0.054	All H-atom parameters refined
S = 1.17	Δρ_max = 0.96 e Å⁻³
809 reflections	Δρ_min = −0.90 e Å⁻³
47 parameters

Special details top

Experimental. SADABS was used to perform the Absorption correction Parameter refinement on 3332 reflections reduced R(int) from 0.1285 to 0.0275 Ratio of minimum to maximum apparent transmission: 0.544250 The given Tmin and Tmax were generated using the SHELX SIZE command

A thin coating of glue was applied to the crystal to reduce its deterioration during data collection

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.

Refinement. Refinement of F² against ALL reflections. The weighted R-factor wR and goodness of fit S are based on F², conventional R-factors R are based on F, with F set to zero for negative F². The threshold expression of F² > σ(F²) is used only for calculating R-factors(gt) etc. and is not relevant to the choice of reflections for refinement. R-factors based on F² are statistically about twice as large as those based on F, and R- factors based on ALL data will be even larger.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å²) top

	x	y	z	U_iso*/U_eq
Cs1	0.87244 (3)	0.30550 (4)	0.37345 (2)	0.02732 (16)
O1	0.6398 (3)	0.2709 (6)	0.0934 (3)	0.0335 (8)
O2	0.8242 (3)	0.4550 (5)	0.0942 (3)	0.0303 (7)
O3	1.0000	−0.0535 (9)	0.2500	0.074 (2)
H1	0.968 (6)	−0.128 (9)	0.291 (5)	0.050 (18)*
C1	0.7393 (5)	0.3148 (6)	0.0543 (4)	0.0224 (9)

Atomic displacement parameters (Å²) top

	U¹¹	U²²	U³³	U¹²	U¹³	U²³
Cs1	0.02621 (19)	0.0275 (2)	0.0283 (2)	−0.00157 (11)	0.00824 (13)	−0.00304 (12)
O1	0.0317 (18)	0.0366 (18)	0.037 (2)	−0.0071 (15)	0.0183 (16)	−0.0071 (16)
O2	0.0331 (16)	0.0273 (16)	0.0308 (17)	−0.0049 (14)	0.0102 (14)	−0.0048 (13)
O3	0.124 (6)	0.029 (3)	0.110 (6)	0.000	0.095 (5)	0.000
C1	0.024 (2)	0.021 (2)	0.022 (2)	0.0055 (16)	0.0067 (18)	0.0041 (16)

Geometric parameters (Å, º) top

Cs1—O2ⁱ	3.116 (3)	O1—Cs1ⁱⁱⁱ	3.579 (4)
Cs1—O1ⁱⁱ	3.120 (3)	O2—C1	1.256 (5)
Cs1—O1ⁱⁱⁱ	3.123 (4)	O2—Cs1^viii	3.116 (3)
Cs1—O2^iv	3.131 (3)	O2—Cs1^iv	3.131 (3)
Cs1—O2^v	3.149 (3)	O2—Cs1ⁱⁱⁱ	3.149 (3)
Cs1—O2	3.205 (3)	O3—Cs1^iv	3.217 (4)
Cs1—O3	3.217 (4)	O3—Cs1^ix	3.7162 (15)
Cs1—O1	3.343 (3)	O3—Cs1^v	3.7162 (15)
Cs1—C1	3.456 (4)	O3—H1	0.81 (6)
Cs1—O1^v	3.579 (4)	C1—C1^x	1.566 (9)
Cs1—C1^v	3.622 (4)	C1—Cs1ⁱⁱⁱ	3.622 (4)
Cs1—O3^vi	3.7162 (15)	C1—Cs1^v	3.733 (4)
Cs1—H1	3.26 (6)	C1—Cs1^viii	3.738 (4)
O1—C1	1.244 (6)	C1—Cs1^vii	3.743 (4)
O1—Cs1^vii	3.120 (3)	C1—Cs1^iv	3.753 (4)
O1—Cs1^v	3.123 (4)

O2ⁱ—Cs1—O1ⁱⁱ	75.37 (9)	O3—Cs1—H1	14.3 (10)
O2ⁱ—Cs1—O1ⁱⁱⁱ	51.46 (9)	O1—Cs1—H1	81.6 (11)
O1ⁱⁱ—Cs1—O1ⁱⁱⁱ	96.95 (8)	C1—Cs1—H1	77.0 (10)
O2ⁱ—Cs1—O2^iv	97.01 (7)	O1^v—Cs1—H1	34.4 (10)
O1ⁱⁱ—Cs1—O2^iv	51.36 (8)	C1^v—Cs1—H1	53.6 (10)
O1ⁱⁱⁱ—Cs1—O2^iv	75.12 (8)	O3^vi—Cs1—H1	117.9 (11)
O2ⁱ—Cs1—O2^v	91.88 (8)	C1—O1—Cs1^vii	110.6 (3)
O1ⁱⁱ—Cs1—O2^v	102.23 (9)	C1—O1—Cs1^v	109.8 (3)
O1ⁱⁱⁱ—Cs1—O2^v	132.11 (8)	Cs1^vii—O1—Cs1^v	83.05 (8)
O2^iv—Cs1—O2^v	147.93 (11)	C1—O1—Cs1	84.7 (3)
O2ⁱ—Cs1—O2	127.99 (4)	Cs1^vii—O1—Cs1	164.58 (13)
O1ⁱⁱ—Cs1—O2	132.74 (9)	Cs1^v—O1—Cs1	89.78 (9)
O1ⁱⁱⁱ—Cs1—O2	79.10 (8)	C1—O1—Cs1ⁱⁱⁱ	82.0 (2)
O2^iv—Cs1—O2	82.83 (9)	Cs1^vii—O1—Cs1ⁱⁱⁱ	101.34 (10)
O2^v—Cs1—O2	115.23 (6)	Cs1^v—O1—Cs1ⁱⁱⁱ	165.28 (13)
O2ⁱ—Cs1—O3	154.52 (7)	Cs1—O1—Cs1ⁱⁱⁱ	82.46 (7)
O1ⁱⁱ—Cs1—O3	82.14 (7)	C1—O2—Cs1^viii	110.1 (3)
O1ⁱⁱⁱ—Cs1—O3	145.25 (10)	C1—O2—Cs1^iv	110.1 (2)
O2^iv—Cs1—O3	77.58 (8)	Cs1^viii—O2—Cs1^iv	82.99 (7)
O2^v—Cs1—O3	81.21 (9)	C1—O2—Cs1ⁱⁱⁱ	101.9 (2)
O2—Cs1—O3	76.53 (7)	Cs1^viii—O2—Cs1ⁱⁱⁱ	88.12 (8)
O2ⁱ—Cs1—O1	124.15 (8)	Cs1^iv—O2—Cs1ⁱⁱⁱ	147.93 (11)
O1ⁱⁱ—Cs1—O1	160.33 (9)	C1—O2—Cs1	90.7 (2)
O1ⁱⁱⁱ—Cs1—O1	98.06 (8)	Cs1^viii—O2—Cs1	158.81 (11)
O2^iv—Cs1—O1	121.30 (8)	Cs1^iv—O2—Cs1	85.87 (7)
O2^v—Cs1—O1	76.69 (8)	Cs1ⁱⁱⁱ—O2—Cs1	91.88 (8)
O2—Cs1—O1	39.62 (8)	Cs1^iv—O3—Cs1	84.25 (14)
O3—Cs1—O1	78.27 (6)	Cs1^iv—O3—Cs1^ix	82.04 (3)
O2ⁱ—Cs1—C1	136.21 (9)	Cs1—O3—Cs1^ix	120.85 (8)
O1ⁱⁱ—Cs1—C1	144.25 (10)	Cs1^iv—O3—Cs1^v	120.85 (8)
O1ⁱⁱⁱ—Cs1—C1	95.19 (9)	Cs1—O3—Cs1^v	82.04 (3)
O2^iv—Cs1—C1	100.40 (9)	Cs1^ix—O3—Cs1^v	150.78 (18)
O2^v—Cs1—C1	94.06 (9)	Cs1^iv—O3—H1	169 (4)
O2—Cs1—C1	21.30 (8)	Cs1—O3—H1	86 (4)
O3—Cs1—C1	69.05 (7)	Cs1^ix—O3—H1	99 (4)
O1—Cs1—C1	20.99 (9)	Cs1^v—O3—H1	62 (4)
O2ⁱ—Cs1—O1^v	113.90 (8)	O1—C1—O2	125.6 (4)
O1ⁱⁱ—Cs1—O1^v	78.66 (10)	O1—C1—C1^x	117.5 (5)
O1ⁱⁱⁱ—Cs1—O1^v	165.28 (13)	O2—C1—C1^x	116.9 (5)
O2^iv—Cs1—O1^v	111.45 (8)	O1—C1—Cs1	74.4 (3)
O2^v—Cs1—O1^v	37.91 (8)	O2—C1—Cs1	68.0 (2)
O2—Cs1—O1^v	114.27 (8)	C1^x—C1—Cs1	135.0 (3)
O3—Cs1—O1^v	48.66 (9)	O1—C1—Cs1ⁱⁱⁱ	78.1 (2)
O1—Cs1—O1^v	89.69 (9)	O2—C1—Cs1ⁱⁱⁱ	58.3 (2)
C1—Cs1—O1^v	96.43 (9)	C1^x—C1—Cs1ⁱⁱⁱ	142.7 (3)
O2ⁱ—Cs1—C1^v	98.47 (9)	Cs1—C1—Cs1ⁱⁱⁱ	80.30 (9)
O1ⁱⁱ—Cs1—C1^v	85.79 (10)	O1—C1—Cs1^v	51.9 (2)
O1ⁱⁱⁱ—Cs1—C1^v	147.07 (10)	O2—C1—Cs1^v	144.3 (3)
O2^iv—Cs1—C1^v	128.12 (9)	C1^x—C1—Cs1^v	78.1 (3)
O2^v—Cs1—C1^v	19.83 (9)	Cs1—C1—Cs1^v	78.75 (8)
O2—Cs1—C1^v	122.30 (9)	Cs1ⁱⁱⁱ—C1—Cs1^v	129.32 (13)
O3—Cs1—C1^v	67.68 (10)	O1—C1—Cs1^viii	144.1 (3)
O1—Cs1—C1^v	88.49 (9)	O2—C1—Cs1^viii	51.6 (2)
C1—Cs1—C1^v	101.56 (10)	C1^x—C1—Cs1^viii	77.7 (3)
O1^v—Cs1—C1^v	19.88 (9)	Cs1—C1—Cs1^viii	119.42 (12)
O2ⁱ—Cs1—O3^vi	78.03 (7)	Cs1ⁱⁱⁱ—C1—Cs1^viii	72.58 (7)
O1ⁱⁱ—Cs1—O3^vi	151.44 (7)	Cs1^v—C1—Cs1^viii	155.80 (13)
O1ⁱⁱⁱ—Cs1—O3^vi	73.97 (10)	O1—C1—Cs1^vii	51.3 (2)
O2^iv—Cs1—O3^vi	143.73 (10)	O2—C1—Cs1^vii	144.4 (3)
O2^v—Cs1—O3^vi	68.28 (10)	C1^x—C1—Cs1^vii	78.3 (3)
O2—Cs1—O3^vi	73.13 (6)	Cs1—C1—Cs1^vii	125.59 (13)
O3—Cs1—O3^vi	120.85 (8)	Cs1ⁱⁱⁱ—C1—Cs1^vii	89.59 (9)
O1—Cs1—O3^vi	46.71 (7)	Cs1^v—C1—Cs1^vii	67.22 (7)
C1—Cs1—O3^vi	64.31 (7)	Cs1^viii—C1—Cs1^vii	107.56 (10)
O1^v—Cs1—O3^vi	103.15 (10)	O1—C1—Cs1^iv	144.8 (3)
C1^v—Cs1—O3^vi	88.01 (11)	O2—C1—Cs1^iv	51.6 (2)
O2ⁱ—Cs1—H1	144.0 (10)	C1^x—C1—Cs1^iv	77.6 (3)
O1ⁱⁱ—Cs1—H1	79.9 (11)	Cs1—C1—Cs1^iv	73.42 (8)
O1ⁱⁱⁱ—Cs1—H1	159.2 (10)	Cs1ⁱⁱⁱ—C1—Cs1^iv	109.83 (11)
O2^iv—Cs1—H1	87.3 (10)	Cs1^v—C1—Cs1^iv	107.45 (10)
O2^v—Cs1—H1	68.2 (10)	Cs1^viii—C1—Cs1^iv	67.08 (7)
O2—Cs1—H1	88.0 (10)	Cs1^vii—C1—Cs1^iv	155.89 (13)

Symmetry codes: (i) x, −y+1, z+1/2; (ii) x+1/2, −y+1/2, z+1/2; (iii) −x+3/2, y+1/2, −z+1/2; (iv) −x+2, y, −z+1/2; (v) −x+3/2, y−1/2, −z+1/2; (vi) x−1/2, y+1/2, z; (vii) x−1/2, −y+1/2, z−1/2; (viii) x, −y+1, z−1/2; (ix) x+1/2, y−1/2, z; (x) −x+3/2, −y+1/2, −z.

Hydrogen-bond geometry (Å, º) top

D—H···A	D—H	H···A	D···A	D—H···A
O3—H1···O1^v	0.81 (6)	2.05 (5)	2.819 (4)	161 (6)

Symmetry code: (v) −x+3/2, y−1/2, −z+1/2.

(CSOXJOINTRT_phase_1) top

Crystal data top

C₂H₂Cs₂O₅	β = 107.191 (4)°
M_r = 371.84	V = 727.98 (9) Å³
Monoclinic, C2/c	Z = 4
a = 10.1125 (6) Å	? radiation, λ = 1.36 Å
b = 6.6535 (4) Å	?, ? × ? × ? mm
c = 11.3255 (7) Å

Data collection top

2θ_min = −0.400°, 2θ_max = 154.400°, 2θ_step = 0.1°

Refinement top

Least-squares matrix: full	1549 data points
R_p = 0.010	Profile function: CW Profile function number 2 with 18 terms Profile coefficients for Simpson's rule integration of pseudovoigt function C.J. Howard (1982). J. Appl. Cryst.,15,615-620. P. Thompson, D.E. Cox & J.B. Hastings (1987). J. Appl. Cryst.,20,79-83. #1(GU) = 222.093 #2(GV) = -514.662 #3(GW) = 359.730 #4(LX) = 5.847 #5(LY) = 7.392 #6(trns) = 0.000 #7(asym) = 15.2584 #8(shft) = 0.0000 #9(GP) = 0.000 #10(stec)= 0.00 #11(ptec)= 0.00 #12(sfec)= 0.00 #13(L11) = 0.000 #14(L22) = 0.000 #15(L33) = 0.000 #16(L12) = 0.000 #17(L13) = 0.000 #18(L23) = 0.000 Peak tails are ignored where the intensity is below 0.0100 times the peak Aniso. broadening axis 0.0 0.0 1.0
R_wp = 0.013	73 parameters
R_exp = 0.009	0 restraints
R(F²) = 0.06304	(Δ/σ)_max = 0.02
χ² = 2.789	Background function: GSAS Background function number 2 with 10 terms. Cosine Fourier series 1: 10179.3 2: 5267.35 3: -576.316 4: 1077.15 5: -753.819 6: 677.534 7: -428.178 8: 169.871 9: -77.3448 10: 39.2779

Crystal data top

C₂H₂Cs₂O₅	β = 107.191 (4)°
M_r = 371.84	V = 727.98 (9) Å³
Monoclinic, C2/c	Z = 4
a = 10.1125 (6) Å	? radiation, λ = 1.36 Å
b = 6.6535 (4) Å	?, ? × ? × ? mm
c = 11.3255 (7) Å

Data collection top

2θ_min = −0.400°, 2θ_max = 154.400°, 2θ_step = 0.1°

Refinement top

R_p = 0.010	χ² = 2.789
R_wp = 0.013	1549 data points
R_exp = 0.009	73 parameters
R(F²) = 0.06304	0 restraints

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å²) top

	x	y	z	U_iso*/U_eq
O1	0.0	−0.4456 (5)	0.25	0.06563
O2	0.8606 (2)	−0.2708 (3)	0.40669 (19)	0.03119
O3	0.67580 (19)	−0.4548 (3)	0.40541 (17)	0.02845
CS4	0.872442 (19	0.194463 (26	0.373455 (17	0.0259
C5	0.7606 (3)	−0.3148 (3)	0.4454 (2)	0.01929
H6	0.9550 (9)	−0.3635 (11)	0.2968 (7)	0.04935

Atomic displacement parameters (Å²) top

	U¹¹	U²²	U³³	U¹²	U¹³	U²³
O1	0.109 (3)	0.0288 (19)	0.095 (3)	0.0	0.086 (3)	0.0
O2	0.0322 (13)	0.0373 (12)	0.0311 (13)	−0.0061 (10)	0.0203 (11)	−0.0075 (10)
O3	0.0342 (11)	0.0270 (11)	0.0261 (12)	−0.0049 (9)	0.0121 (10)	−0.0063 (9)
CS4	0.02731 (16	0.02778 (17	0.02345 (17	0.00181 (8)	0.00882 (12	0.00307 (9)
C5	0.0224 (13)	0.0196 (14)	0.0161 (13)	0.0048 (11)	0.0061 (11)	0.0034 (10)
H6	0.052 (6)	0.044 (5)	0.065 (7)	0.004 (4)	0.036 (6)	−0.007 (5)

Geometric parameters (Å, º) top

O1—O2ⁱ	2.823 (2)	CS4—O1^xiii	3.7278 (8)
O1—O2ⁱⁱ	2.823 (2)	CS4—O2	3.125 (2)
O1—O3ⁱⁱⁱ	3.985 (3)	CS4—O2^xx	3.583 (2)
O1—O3^iv	3.883 (3)	CS4—O2^xv	3.1260 (19)
O1—O3^v	3.985 (3)	CS4—O2^xxi	3.355 (2)
O1—O3^vi	3.883 (3)	CS4—O3^xx	3.1557 (18)
O1—CS4^vii	3.228 (2)	CS4—O3^xiii	3.1418 (18)
O1—CS4^viii	3.228 (2)	CS4—O3^xxi	3.2075 (19)
O1—CS4ⁱⁱⁱ	3.7278 (8)	CS4—O3^xii	3.1267 (18)
O1—CS4^v	3.7278 (8)	CS4—C5	3.738 (2)
O1—C5ⁱ	3.832 (2)	CS4—C5^xx	3.626 (2)
O1—C5ⁱⁱ	3.832 (2)	CS4—C5^xv	3.758 (3)
O1—C5^ix	3.920 (3)	CS4—C5^xiii	3.766 (3)
O1—C5^x	3.920 (3)	CS4—C5^xxi	3.462 (2)
O1—C5ⁱⁱⁱ	3.798 (3)	CS4—C5^xii	3.746 (2)
O1—C5^v	3.798 (3)	CS4—H6	3.957 (7)
O1—H6ⁱ	0.964 (7)	CS4—H6^xx	3.245 (7)
O1—H6ⁱⁱ	0.964 (7)	CS4—H6^xv	3.795 (8)
O2—O1^xi	2.823 (2)	CS4—H6^xxi	3.325 (9)
O2—O2^xii	3.514 (4)	C5—O1^xi	3.832 (2)
O2—O3	2.231 (3)	C5—O1^ix	3.920 (3)
O2—O3^xiii	3.822 (3)	C5—O1^xiii	3.798 (3)
O2—O3^xii	2.717 (3)	C5—O2	1.251 (3)
O2—CS4^xiv	3.583 (2)	C5—O2^xii	2.418 (3)
O2—CS4	3.125 (2)	C5—O3	1.256 (3)
O2—CS4^xv	3.1260 (19)	C5—O3^xii	2.417 (3)
O2—CS4^xvi	3.355 (2)	C5—CS4^xiv	3.626 (2)
O2—C5	1.251 (3)	C5—CS4	3.738 (2)
O2—C5^xii	2.418 (3)	C5—CS4^xv	3.758 (3)
O2—H6	1.881 (7)	C5—CS4ⁱⁱⁱ	3.766 (3)
O2—H6^xvii	3.422 (7)	C5—CS4^xvi	3.462 (2)
O3—O1^xviii	3.883 (3)	C5—CS4^xii	3.746 (2)
O3—O1^xiii	3.985 (3)	C5—C5^xii	1.573 (4)
O3—O2	2.231 (3)	C5—H6	2.959 (8)
O3—O2ⁱⁱⁱ	3.822 (3)	H6—O1^xi	0.964 (7)
O3—O2^xii	2.717 (3)	H6—O2	1.881 (7)
O3—O3^xii	3.516 (4)	H6—O2^xvii	3.422 (7)
O3—CS4^xiv	3.1557 (18)	H6—O3	3.450 (8)
O3—CS4ⁱⁱⁱ	3.1418 (18)	H6—O3^xiii	3.503 (8)
O3—CS4^xvi	3.2075 (19)	H6—O3^xxi	3.550 (8)
O3—CS4^xii	3.1267 (18)	H6—CS4^xiv	3.245 (7)
O3—C5	1.256 (3)	H6—CS4	3.957 (7)
O3—C5^xii	2.417 (3)	H6—CS4^xv	3.795 (8)
O3—H6	3.450 (8)	H6—CS4^xvi	3.325 (9)
O3—H6ⁱⁱⁱ	3.503 (8)	H6—C5	2.959 (8)
O3—H6^xvi	3.550 (8)	H6—H6^xvii	1.589 (14)
CS4—O1^xix	3.228 (2)

O2ⁱ—O1—O2ⁱⁱ	131.33 (14)	O1^xix—CS4—C5^xxi	69.09 (4)
O2ⁱ—O1—O3ⁱⁱⁱ	108.24 (6)	O1^xix—CS4—C5^xxiv	172.62 (4)
O2ⁱ—O1—O3^iv	67.37 (7)	O1^xix—CS4—H6	117.63 (11)
O2ⁱ—O1—O3^v	112.80 (6)	O1^xix—CS4—H6^xx	17.14 (12)
O2ⁱ—O1—O3^vi	72.04 (7)	O1^xix—CS4—H6^xv	94.59 (11)
O2ⁱ—O1—CS4^vii	72.28 (5)	O1^xix—CS4—H6^xxi	106.96 (12)
O2ⁱ—O1—CS4^viii	156.32 (10)	O1^xiii—CS4—O2	74.16 (6)
O2ⁱ—O1—CS4ⁱⁱⁱ	107.34 (6)	O1^xiii—CS4—O2^xx	103.08 (6)
O2ⁱ—O1—CS4^v	59.73 (4)	O1^xiii—CS4—O2^xv	151.44 (4)
O2ⁱ—O1—C5ⁱ	12.89 (5)	O1^xiii—CS4—O2^xxi	46.60 (4)
O2ⁱ—O1—C5ⁱⁱ	141.97 (11)	O1^xiii—CS4—O3^xx	68.09 (5)
O2ⁱ—O1—C5^ix	84.70 (5)	O1^xiii—CS4—O3^xiii	143.91 (5)
O2ⁱ—O1—C5^xxii	115.31 (6)	O1^xiii—CS4—O3^xxi	73.17 (4)
O2ⁱ—O1—C5ⁱⁱⁱ	106.83 (6)	O1^xiii—CS4—O3^xxiii	78.07 (4)
O2ⁱ—O1—C5^v	104.09 (5)	O1^xiii—CS4—C5	61.16 (5)
O2ⁱ—O1—H6ⁱ	10.3 (4)	O1^xiii—CS4—C5^xx	87.80 (6)
O2ⁱ—O1—H6ⁱⁱ	121.1 (5)	O1^xiii—CS4—C5^xv	169.52 (4)
O2ⁱⁱ—O1—O3ⁱⁱⁱ	112.80 (6)	O1^xiii—CS4—C5^xiii	161.79 (5)
O2ⁱⁱ—O1—O3^iv	72.04 (7)	O1^xiii—CS4—C5^xxi	64.30 (4)
O2ⁱⁱ—O1—O3^v	108.24 (6)	O1^xiii—CS4—C5^xxiv	63.27 (5)
O2ⁱⁱ—O1—O3^vi	67.37 (7)	O1^xiii—CS4—H6	86.46 (14)
O2ⁱⁱ—O1—CS4^vii	156.32 (10)	O1^xiii—CS4—H6^xx	115.95 (17)
O2ⁱⁱ—O1—CS4^viii	72.28 (5)	O1^xiii—CS4—H6^xv	124.26 (12)
O2ⁱⁱ—O1—CS4ⁱⁱⁱ	59.73 (4)	O1^xiii—CS4—H6^xxi	14.30 (11)
O2ⁱⁱ—O1—CS4^v	107.34 (6)	O2—CS4—O2^xx	165.30 (7)
O2ⁱⁱ—O1—C5ⁱ	141.97 (11)	O2—CS4—O2^xv	96.88 (5)
O2ⁱⁱ—O1—C5ⁱⁱ	12.89 (5)	O2—CS4—O2^xxi	98.10 (5)
O2ⁱⁱ—O1—C5^ix	115.31 (6)	O2—CS4—O3^xx	132.15 (5)
O2ⁱⁱ—O1—C5^xxii	84.70 (5)	O2—CS4—O3^xiii	75.16 (5)
O2ⁱⁱ—O1—C5ⁱⁱⁱ	104.09 (5)	O2—CS4—O3^xxi	79.16 (5)
O2ⁱⁱ—O1—C5^v	106.83 (6)	O2—CS4—O3^xxiii	51.51 (5)
O2ⁱⁱ—O1—H6ⁱ	121.1 (5)	O2—CS4—C5	18.36 (5)
O2ⁱⁱ—O1—H6ⁱⁱ	10.3 (4)	O2—CS4—C5^xx	147.06 (6)
O3ⁱⁱⁱ—O1—O3^iv	115.47 (5)	O2—CS4—C5^xv	102.25 (5)
O3ⁱⁱⁱ—O1—O3^v	63.59 (7)	O2—CS4—C5^xiii	91.84 (5)
O3ⁱⁱⁱ—O1—O3^vi	179.06 (5)	O2—CS4—C5^xxi	95.22 (5)
O3ⁱⁱⁱ—O1—CS4^vii	50.31 (5)	O2—CS4—C5^xxiv	39.94 (5)
O3ⁱⁱⁱ—O1—CS4^viii	51.51 (5)	O2—CS4—H6	27.77 (11)
O3ⁱⁱⁱ—O1—CS4ⁱⁱⁱ	77.15 (4)	O2—CS4—H6^xx	162.20 (13)
O3ⁱⁱⁱ—O1—CS4^v	130.36 (7)	O2—CS4—H6^xv	101.41 (11)
O3ⁱⁱⁱ—O1—C5ⁱ	102.33 (5)	O2—CS4—H6^xxi	83.57 (13)
O3ⁱⁱⁱ—O1—C5ⁱⁱ	99.94 (5)	O2^xx—CS4—O2^xv	78.62 (5)
O3ⁱⁱⁱ—O1—C5^ix	35.60 (5)	O2^xx—CS4—O2^xxi	89.72 (5)
O3ⁱⁱⁱ—O1—C5^xxii	97.01 (8)	O2^xx—CS4—O3^xx	37.99 (5)
O3ⁱⁱⁱ—O1—C5ⁱⁱⁱ	18.36 (4)	O2^xx—CS4—O3^xiii	111.31 (5)
O3ⁱⁱⁱ—O1—C5^v	81.36 (7)	O2^xx—CS4—O3^xxi	114.25 (5)
O3ⁱⁱⁱ—O1—H6ⁱ	117.4 (5)	O2^xx—CS4—O3^xxiii	113.85 (5)
O3ⁱⁱⁱ—O1—H6ⁱⁱ	120.2 (5)	O2^xx—CS4—C5	148.82 (5)
O3^iv—O1—O3^v	179.06 (5)	O2^xx—CS4—C5^xx	19.97 (5)
O3^iv—O1—O3^vi	65.47 (7)	O2^xx—CS4—C5^xv	77.84 (4)
O3^iv—O1—CS4^vii	128.00 (3)	O2^xx—CS4—C5^xiii	93.36 (5)
O3^iv—O1—CS4^viii	129.22 (3)	O2^xx—CS4—C5^xxi	96.46 (5)
O3^iv—O1—CS4ⁱⁱⁱ	48.94 (4)	O2^xx—CS4—C5^xxiv	125.70 (5)
O3^iv—O1—CS4^v	103.66 (7)	O2^xx—CS4—H6	165.98 (12)
O3^iv—O1—C5ⁱ	80.21 (6)	O2^xx—CS4—H6^xx	31.50 (12)
O3^iv—O1—C5ⁱⁱ	77.76 (6)	O2^xx—CS4—H6^xv	67.81 (12)
O3^iv—O1—C5^ix	82.07 (5)	O2^xx—CS4—H6^xxi	96.76 (13)
O3^iv—O1—C5^xxii	145.27 (8)	O2^xv—CS4—O2^xxi	160.40 (6)
O3^iv—O1—C5ⁱⁱⁱ	97.70 (5)	O2^xv—CS4—O3^xx	102.33 (5)
O3^iv—O1—C5^v	162.54 (7)	O2^xv—CS4—O3^xiii	51.37 (5)
O3^iv—O1—H6ⁱ	60.1 (5)	O2^xv—CS4—O3^xxi	132.76 (5)
O3^iv—O1—H6ⁱⁱ	62.9 (5)	O2^xv—CS4—O3^xxiii	75.36 (5)
O3^v—O1—O3^vi	115.47 (5)	O2^xv—CS4—C5	102.68 (6)
O3^v—O1—CS4^vii	51.51 (5)	O2^xv—CS4—C5^xx	85.87 (5)
O3^v—O1—CS4^viii	50.31 (5)	O2^xv—CS4—C5^xv	18.12 (5)
O3^v—O1—CS4ⁱⁱⁱ	130.36 (7)	O2^xv—CS4—C5^xiii	39.73 (5)
O3^v—O1—CS4^v	77.15 (4)	O2^xv—CS4—C5^xxi	144.26 (6)
O3^v—O1—C5ⁱ	99.94 (5)	O2^xv—CS4—C5^xxiv	92.22 (5)
O3^v—O1—C5ⁱⁱ	102.33 (5)	O2^xv—CS4—H6	97.98 (14)
O3^v—O1—C5^ix	97.01 (8)	O2^xv—CS4—H6^xx	80.55 (17)
O3^v—O1—C5^xxii	35.60 (5)	O2^xv—CS4—H6^xv	29.58 (13)
O3^v—O1—C5ⁱⁱⁱ	81.36 (7)	O2^xv—CS4—H6^xxi	163.39 (13)
O3^v—O1—C5^v	18.36 (4)	O2^xxi—CS4—O3^xx	76.54 (5)
O3^v—O1—H6ⁱ	120.2 (5)	O2^xxi—CS4—O3^xiii	121.32 (5)
O3^v—O1—H6ⁱⁱ	117.4 (5)	O2^xxi—CS4—O3^xxi	39.66 (5)
O3^vi—O1—CS4^vii	129.22 (3)	O2^xxi—CS4—O3^xxiii	124.08 (5)
O3^vi—O1—CS4^viii	128.00 (3)	O2^xxi—CS4—C5	95.46 (5)
O3^vi—O1—CS4ⁱⁱⁱ	103.66 (7)	O2^xxi—CS4—C5^xx	88.39 (5)
O3^vi—O1—CS4^v	48.94 (4)	O2^xxi—CS4—C5^xv	143.71 (5)
O3^vi—O1—C5ⁱ	77.76 (6)	O2^xxi—CS4—C5^xiii	126.99 (5)
O3^vi—O1—C5ⁱⁱ	80.21 (6)	O2^xxi—CS4—C5^xxi	21.07 (5)
O3^vi—O1—C5^ix	145.27 (8)	O2^xxi—CS4—C5^xxiv	107.38 (5)
O3^vi—O1—C5^xxii	82.07 (5)	O2^xxi—CS4—H6	89.54 (13)
O3^vi—O1—C5ⁱⁱⁱ	162.54 (7)	O2^xxi—CS4—H6^xx	81.32 (17)
O3^vi—O1—C5^v	97.70 (5)	O2^xxi—CS4—H6^xv	154.21 (12)
O3^vi—O1—H6ⁱ	62.9 (5)	O2^xxi—CS4—H6^xxi	32.72 (12)
O3^vi—O1—H6ⁱⁱ	60.1 (5)	O3^xx—CS4—O3^xiii	147.93 (7)
CS4^vii—O1—CS4^viii	84.22 (7)	O3^xx—CS4—O3^xxi	115.10 (4)
CS4^vii—O1—CS4ⁱⁱⁱ	120.79 (4)	O3^xx—CS4—O3^xxiii	91.87 (5)
CS4^vii—O1—CS4^v	81.904 (18)	O3^xx—CS4—C5	113.82 (5)
CS4^vii—O1—C5ⁱ	61.10 (3)	O3^xx—CS4—C5^xx	19.82 (5)
CS4^vii—O1—C5ⁱⁱ	145.11 (8)	O3^xx—CS4—C5^xv	109.51 (5)
CS4^vii—O1—C5^ix	62.56 (5)	O3^xx—CS4—C5^xiii	129.73 (5)
CS4^vii—O1—C5^xxii	81.81 (6)	O3^xx—CS4—C5^xxi	93.97 (5)
CS4^vii—O1—C5ⁱⁱⁱ	64.22 (6)	O3^xx—CS4—C5^xxiv	95.48 (5)
CS4^vii—O1—C5^v	58.36 (5)	O3^xx—CS4—H6	154.15 (14)
CS4^vii—O1—H6ⁱ	82.4 (4)	O3^xx—CS4—H6^xx	65.22 (14)
CS4^vii—O1—H6ⁱⁱ	166.6 (5)	O3^xx—CS4—H6^xv	77.88 (12)
CS4^viii—O1—CS4ⁱⁱⁱ	81.904 (18)	O3^xx—CS4—H6^xxi	66.36 (13)
CS4^viii—O1—CS4^v	120.79 (4)	O3^xiii—CS4—O3^xxi	82.81 (5)
CS4^viii—O1—C5ⁱ	145.11 (8)	O3^xiii—CS4—O3^xxiii	97.16 (4)
CS4^viii—O1—C5ⁱⁱ	61.10 (3)	O3^xiii—CS4—C5	92.10 (5)
CS4^viii—O1—C5^ix	81.81 (6)	O3^xiii—CS4—C5^xx	128.14 (6)
CS4^viii—O1—C5^xxii	62.56 (5)	O3^xiii—CS4—C5^xv	39.77 (5)
CS4^viii—O1—C5ⁱⁱⁱ	58.36 (5)	O3^xiii—CS4—C5^xiii	18.23 (5)
CS4^viii—O1—C5^v	64.22 (6)	O3^xiii—CS4—C5^xxi	100.35 (6)
CS4^viii—O1—H6ⁱ	166.6 (5)	O3^xiii—CS4—C5^xxiv	102.72 (5)
CS4^viii—O1—H6ⁱⁱ	82.4 (4)	O3^xiii—CS4—H6	57.78 (14)
CS4ⁱⁱⁱ—O1—CS4^v	151.04 (9)	O3^xiii—CS4—H6^xx	89.87 (16)
CS4ⁱⁱⁱ—O1—C5ⁱ	117.87 (5)	O3^xiii—CS4—H6^xv	80.26 (13)
CS4ⁱⁱⁱ—O1—C5ⁱⁱ	54.48 (4)	O3^xiii—CS4—H6^xxi	143.24 (13)
CS4ⁱⁱⁱ—O1—C5^ix	58.58 (4)	O3^xxi—CS4—O3^xxiii	128.06 (2)
CS4ⁱⁱⁱ—O1—C5^xxii	136.43 (4)	O3^xxi—CS4—C5	88.07 (5)
CS4ⁱⁱⁱ—O1—C5ⁱⁱⁱ	59.55 (4)	O3^xxi—CS4—C5^xx	122.22 (5)
CS4ⁱⁱⁱ—O1—C5^v	146.12 (7)	O3^xxi—CS4—C5^xv	116.21 (5)
CS4ⁱⁱⁱ—O1—H6ⁱ	103.9 (6)	O3^xxi—CS4—C5^xiii	93.06 (5)
CS4ⁱⁱⁱ—O1—H6ⁱⁱ	58.4 (6)	O3^xxi—CS4—C5^xxi	21.27 (5)
CS4^v—O1—C5ⁱ	54.48 (4)	O3^xxi—CS4—C5^xxiv	110.85 (5)
CS4^v—O1—C5ⁱⁱ	117.87 (5)	O3^xxi—CS4—H6	58.28 (12)
CS4^v—O1—C5^ix	136.43 (4)	O3^xxi—CS4—H6^xx	89.63 (13)
CS4^v—O1—C5^xxii	58.58 (4)	O3^xxi—CS4—H6^xv	162.27 (13)
CS4^v—O1—C5ⁱⁱⁱ	146.12 (7)	O3^xxi—CS4—H6^xxi	63.73 (13)
CS4^v—O1—C5^v	59.55 (4)	O3^xxiv—CS4—C5	40.00 (5)
CS4^v—O1—H6ⁱ	58.4 (6)	O3^xxiv—CS4—C5^xx	98.42 (5)
CS4^v—O1—H6ⁱⁱ	103.9 (6)	O3^xxiv—CS4—C5^xv	91.96 (5)
C5ⁱ—O1—C5ⁱⁱ	153.74 (11)	O3^xxiv—CS4—C5^xiii	102.57 (5)
C5ⁱ—O1—C5^ix	85.16 (5)	O3^xxiv—CS4—C5^xxi	136.22 (5)
C5ⁱ—O1—C5^xxii	105.61 (6)	O3^xxiv—CS4—C5^xxiv	18.37 (5)
C5ⁱ—O1—C5ⁱⁱⁱ	104.97 (6)	O3^xxiv—CS4—H6	77.88 (11)
C5ⁱ—O1—C5^v	92.03 (4)	O3^xxiv—CS4—H6^xx	142.18 (13)
C5ⁱ—O1—H6ⁱ	21.9 (5)	O3^xxiv—CS4—H6^xv	59.89 (12)
C5ⁱ—O1—H6ⁱⁱ	132.1 (5)	O3^xxiv—CS4—H6^xxi	92.35 (12)
C5ⁱⁱ—O1—C5^ix	105.61 (6)	C5—CS4—C5^xx	129.24 (7)
C5ⁱⁱ—O1—C5^xxii	85.16 (5)	C5—CS4—C5^xv	112.83 (4)
C5ⁱⁱ—O1—C5ⁱⁱⁱ	92.03 (4)	C5—CS4—C5^xiii	107.53 (5)
C5ⁱⁱ—O1—C5^v	104.97 (6)	C5—CS4—C5^xxi	99.32 (5)
C5ⁱⁱ—O1—H6ⁱ	132.1 (5)	C5—CS4—C5^xxiv	24.27 (7)
C5ⁱⁱ—O1—H6ⁱⁱ	21.9 (5)	C5—CS4—H6	45.12 (12)
C5^ix—O1—C5^xxii	132.02 (11)	C5—CS4—H6^xx	176.76 (16)
C5^ix—O1—C5ⁱⁱⁱ	23.45 (7)	C5—CS4—H6^xv	97.76 (12)
C5^ix—O1—C5^v	113.05 (7)	C5—CS4—H6^xxi	73.00 (13)
C5^ix—O1—H6ⁱ	90.9 (5)	C5^xx—CS4—C5^xv	90.51 (5)
C5^ix—O1—H6ⁱⁱ	116.4 (6)	C5^xx—CS4—C5^xiii	109.92 (6)
C5^xxii—O1—C5ⁱⁱⁱ	113.05 (7)	C5^xx—CS4—C5^xxi	101.52 (5)
C5^xxii—O1—C5^v	23.45 (7)	C5^xx—CS4—C5^xxiv	107.32 (4)
C5^xxii—O1—H6ⁱ	116.4 (6)	C5^xx—CS4—H6	173.72 (12)
C5^xxii—O1—H6ⁱⁱ	90.9 (5)	C5^xx—CS4—H6^xx	50.65 (13)
C5ⁱⁱⁱ—O1—C5^v	99.41 (10)	C5^xx—CS4—H6^xv	66.13 (12)
C5ⁱⁱⁱ—O1—H6ⁱ	113.9 (5)	C5^xx—CS4—H6^xxi	84.92 (13)
C5ⁱⁱⁱ—O1—H6ⁱⁱ	109.1 (5)	C5^xv—CS4—C5^xiii	24.14 (6)
C5^v—O1—H6ⁱ	109.1 (5)	C5^xv—CS4—C5^xxi	126.14 (7)
C5^v—O1—H6ⁱⁱ	113.9 (5)	C5^xv—CS4—C5^xxiv	107.53 (6)
H6ⁱ—O1—H6ⁱⁱ	110.9 (9)	C5^xv—CS4—H6	94.67 (14)
O1^xi—O2—O2^xii	159.36 (12)	C5^xv—CS4—H6^xx	70.26 (17)
O1^xi—O2—O3	110.07 (10)	C5^xv—CS4—H6^xv	46.13 (13)
O1^xi—O2—O3^xiii	69.66 (7)	C5^xv—CS4—H6^xxi	174.13 (12)
O1^xi—O2—O3^xxiii	158.23 (9)	C5^xiii—CS4—C5^xxi	106.51 (5)
O1^xi—O2—CS4^xiv	59.10 (7)	C5^xiii—CS4—C5^xxiv	112.98 (4)
O1^xi—O2—CS4	106.77 (9)	C5^xiii—CS4—H6	76.01 (13)
O1^xi—O2—CS4^xv	95.38 (6)	C5^xiii—CS4—H6^xx	74.86 (16)
O1^xi—O2—CS4^xvi	73.67 (5)	C5^xiii—CS4—H6^xv	69.22 (13)
O1^xi—O2—C5	136.90 (17)	C5^xiii—CS4—H6^xxi	156.79 (13)
O1^xi—O2—C5^xxiv	169.18 (12)	C5^xxi—CS4—C5^xxiv	117.88 (5)
O1^xi—O2—H6	5.3 (2)	C5^xxi—CS4—H6	78.26 (13)
O1^xi—O2—H6^xvii	13.96 (12)	C5^xxi—CS4—H6^xx	77.79 (15)
O2^xxiii—O2—O3	50.64 (7)	C5^xxi—CS4—H6^xv	162.88 (11)
O2^xxiii—O2—O3^xiii	129.70 (9)	C5^xxi—CS4—H6^xxi	51.66 (13)
O2^xxiii—O2—O3^xxiii	39.40 (6)	C5^xxiv—CS4—H6	67.70 (10)
O2^xxiv—O2—CS4^xiv	100.87 (8)	C5^xxiv—CS4—H6^xx	156.95 (12)
O2^xxiv—O2—CS4	92.75 (8)	C5^xxiv—CS4—H6^xv	78.23 (12)
O2^xxiv—O2—CS4^xv	93.53 (8)	C5^xxiv—CS4—H6^xxi	77.43 (12)
O2^xxiv—O2—CS4^xvi	100.37 (8)	H6—CS4—H6^xx	134.8 (2)
O2^xxiv—O2—C5	23.44 (12)	H6—CS4—H6^xv	115.36 (11)
O2^xxiv—O2—C5^xxiv	11.88 (6)	H6—CS4—H6^xxi	90.1 (2)
O2^xxiv—O2—H6	164.0 (3)	H6^xx—CS4—H6^xv	85.11 (19)
O2^xxiv—O2—H6^xvii	171.90 (17)	H6^xx—CS4—H6^xxi	103.93 (19)
O3—O2—O3^xiii	179.4294 (11)	H6^xv—CS4—H6^xxi	134.0 (2)
O3—O2—O3^xxiii	90.04 (10)	O1^xi—C5—O1^ix	94.84 (5)
O3—O2—CS4^xiv	60.56 (7)	O1^xi—C5—O1^xiii	104.97 (6)
O3—O2—CS4	127.19 (10)	O1^xi—C5—O2	30.22 (13)
O3—O2—CS4^xv	128.24 (10)	O1^xi—C5—O2^xii	171.79 (10)
O3—O2—CS4^xvi	66.61 (7)	O1^xi—C5—O3	95.95 (14)
O3—O2—C5	27.20 (12)	O1^xi—C5—O3^xxiii	119.27 (10)
O3—O2—C5^xxiv	62.52 (10)	O1^xi—C5—CS4^xiv	51.20 (5)
O3—O2—H6	113.8 (3)	O1^xi—C5—CS4	78.25 (7)
O3—O2—H6^xvii	121.28 (16)	O1^xi—C5—CS4^xv	70.91 (5)
O3^xiii—O2—O3^xxiii	90.30 (7)	O1^xi—C5—CS4ⁱⁱⁱ	132.44 (6)
O3^xiii—O2—CS4^xiv	119.49 (6)	O1^xi—C5—CS4^xvi	61.22 (4)
O3^xiii—O2—CS4	52.62 (4)	O1^xi—C5—CS4^xxiv	123.61 (7)
O3^xiii—O2—CS4^xv	52.33 (4)	O1^xi—C5—C5^xxiv	146.5 (2)
O3^xiii—O2—CS4^xvi	112.82 (6)	O1^xi—C5—H6	6.98 (14)
O3^xiii—O2—C5	153.14 (17)	O1^ix—C5—O1^xiii	156.55 (7)
O3^xiii—O2—C5^xxiv	117.83 (9)	O1^ix—C5—O2	92.88 (16)
O3^xiii—O2—H6	65.9 (3)	O1^ix—C5—O2^xii	78.10 (7)
O3^xiii—O2—H6^xvii	58.37 (14)	O1^ix—C5—O3	101.20 (15)
O3^xxiv—O2—CS4^xiv	130.34 (8)	O1^ix—C5—O3^xxiii	73.68 (8)
O3^xxiv—O2—CS4	64.27 (6)	O1^ix—C5—CS4^xiv	71.28 (6)
O3^xxiv—O2—CS4^xv	64.62 (6)	O1^ix—C5—CS4	114.35 (7)
O3^xxiv—O2—CS4^xvi	123.97 (8)	O1^ix—C5—CS4^xv	49.66 (4)
O3^xxiv—O2—C5	62.84 (15)	O1^ix—C5—CS4ⁱⁱⁱ	122.03 (6)
O3^xxiv—O2—C5^xxiv	27.53 (6)	O1^ix—C5—CS4^xvi	150.90 (8)
O3^xxiv—O2—H6	155.7 (3)	O1^ix—C5—CS4^xxiv	58.14 (4)
O3^xxiv—O2—H6^xvii	148.67 (16)	O1^ix—C5—C5^xxiv	73.93 (16)
CS4^xiv—O2—CS4	165.30 (7)	O1^ix—C5—H6	96.57 (18)
CS4^xiv—O2—CS4^xv	101.38 (5)	O1^xiii—C5—O2	97.95 (15)
CS4^xiv—O2—CS4^xvi	82.43 (4)	O1^xiii—C5—O2^xii	81.08 (7)
CS4^xiv—O2—C5	81.96 (14)	O1^xiii—C5—O3	89.28 (15)
CS4^xiv—O2—C5^xxiv	110.26 (9)	O1^xiii—C5—O3^xxiii	85.58 (7)
CS4^xiv—O2—H6	64.3 (2)	O1^xiii—C5—CS4^xiv	131.31 (7)
CS4^xiv—O2—H6^xvii	73.06 (12)	O1^xiii—C5—CS4	59.29 (4)
CS4—O2—CS4^xv	83.12 (5)	O1^xiii—C5—CS4^xv	125.68 (7)
CS4—O2—CS4^xvi	89.74 (5)	O1^xiii—C5—CS4ⁱⁱⁱ	50.52 (4)
CS4—O2—C5	109.74 (15)	O1^xiii—C5—CS4^xvi	52.55 (4)
CS4—O2—C5^xxiv	83.98 (8)	O1^xiii—C5—CS4^xxiv	117.11 (7)
CS4—O2—H6	101.5 (2)	O1^xiii—C5—C5^xxiv	82.62 (16)
CS4—O2—H6^xvii	92.84 (13)	O1^xiii—C5—H6	101.68 (17)
CS4^xv—O2—CS4^xvi	164.67 (8)	O2—C5—O2^xii	144.69 (17)
CS4^xv—O2—C5	110.88 (17)	O2—C5—O3	125.7 (2)
CS4^xv—O2—C5^xxiv	84.55 (7)	O2—C5—O3^xxiii	89.74 (17)
CS4^xv—O2—H6	95.3 (3)	O2—C5—CS4^xiv	78.07 (14)
CS4^xv—O2—H6^xvii	92.96 (17)	O2—C5—CS4	51.91 (13)
CS4^xvi—O2—C5	84.28 (15)	O2—C5—CS4^xv	51.00 (14)
CS4^xvi—O2—C5^xxiv	108.25 (9)	O2—C5—CS4ⁱⁱⁱ	145.07 (17)
CS4^xvi—O2—H6	72.8 (3)	O2—C5—CS4^xvi	74.65 (15)
CS4^xvi—O2—H6^xvii	73.80 (16)	O2—C5—CS4^xxiv	143.95 (16)
C5—O2—C5^xxiv	35.31 (17)	O2—C5—C5^xxiv	117.3 (3)
C5—O2—H6	140.9 (3)	O2—C5—H6	23.6 (2)
C5—O2—H6^xvii	148.5 (2)	O2^xxiii—C5—O3	89.60 (16)
C5^xxiv—O2—H6	174.4 (2)	O2^xxiii—C5—O3^xxiii	54.94 (8)
C5^xxiv—O2—H6^xvii	176.16 (16)	O2^xxiv—C5—CS4^xiv	128.58 (10)
H6—O2—H6^xvii	8.81 (15)	O2^xxiv—C5—CS4	100.68 (8)
O1^xviii—O3—O1^xiii	115.47 (5)	O2^xxiv—C5—CS4^xv	101.10 (8)
O1^xviii—O3—O2	137.30 (9)	O2^xxiv—C5—CS4ⁱⁱⁱ	55.73 (7)
O1^xviii—O3—O2ⁱⁱⁱ	42.97 (4)	O2^xxiv—C5—CS4^xvi	126.75 (9)
O1^xviii—O3—O2^xii	132.06 (7)	O2^xxiv—C5—CS4^xxiv	56.08 (7)
O1^xviii—O3—O3^xxiii	169.65 (9)	O2^xxiv—C5—C5^xxiv	27.36 (14)
O1^xviii—O3—CS4^xiv	62.97 (4)	O2^xxiv—C5—H6	167.9 (2)
O1^xviii—O3—CS4ⁱⁱⁱ	85.01 (5)	O3—C5—O3^xxiii	144.54 (17)
O1^xviii—O3—CS4^xvi	84.15 (4)	O3—C5—CS4^xiv	58.43 (12)
O1^xviii—O3—CS4^xxiv	77.00 (4)	O3—C5—CS4	144.27 (16)
O1^xviii—O3—C5	163.61 (15)	O3—C5—CS4^xv	144.44 (16)
O1^xviii—O3—C5^xxiv	158.85 (9)	O3—C5—CS4ⁱⁱⁱ	51.51 (12)
O1^xviii—O3—H6	107.44 (13)	O3—C5—CS4^xvi	67.89 (13)
O1^xviii—O3—H6ⁱⁱⁱ	13.81 (11)	O3—C5—CS4^xxiv	51.71 (13)
O1^xviii—O3—H6^xvi	14.00 (11)	O3—C5—C5^xxiv	117.0 (3)
O1^xiii—O3—O2	78.47 (8)	O3—C5—H6	102.2 (2)
O1^xiii—O3—O2ⁱⁱⁱ	101.87 (6)	O3^xxiv—C5—CS4^xiv	142.08 (10)
O1^xiii—O3—O2^xii	74.35 (6)	O3^xxiv—C5—CS4	56.25 (6)
O1^xiii—O3—O3^xxiii	70.42 (6)	O3^xxiv—C5—CS4^xv	56.24 (7)
O1^xiii—O3—CS4^xiv	142.37 (6)	O3^xxiv—C5—CS4ⁱⁱⁱ	100.62 (8)
O1^xiii—O3—CS4ⁱⁱⁱ	52.24 (3)	O3^xxiv—C5—CS4^xvi	131.07 (9)
O1^xiii—O3—CS4^xvi	51.97 (3)	O3^xxiv—C5—CS4^xxiv	100.49 (8)
O1^xiii—O3—CS4^xxiv	129.23 (5)	O3^xxiv—C5—C5^xxiv	27.58 (13)
O1^xiii—O3—C5	72.36 (14)	O3^xxiv—C5—H6	113.21 (19)
O1^xiii—O3—C5^xxiv	70.73 (7)	CS4^xiv—C5—CS4	129.24 (7)
O1^xiii—O3—H6	89.90 (14)	CS4^xiv—C5—CS4^xv	89.49 (5)
O1^xiii—O3—H6ⁱⁱⁱ	110.48 (15)	CS4^xiv—C5—CS4ⁱⁱⁱ	109.92 (6)
O1^xiii—O3—H6^xvi	109.49 (14)	CS4^xiv—C5—CS4^xvi	80.36 (5)
O2—O3—O2ⁱⁱⁱ	179.4287 (11)	CS4^xiv—C5—CS4^xxiv	72.68 (4)
O2—O3—O2^xii	89.96 (10)	CS4^xiv—C5—C5^xxiv	142.58 (19)
O2—O3—O3^xxiii	50.59 (7)	CS4^xiv—C5—H6	57.98 (14)
O2—O3—CS4^xiv	81.44 (8)	CS4—C5—CS4^xv	67.17 (4)
O2—O3—CS4ⁱⁱⁱ	127.97 (9)	CS4—C5—CS4ⁱⁱⁱ	107.53 (5)
O2—O3—CS4^xvi	73.73 (7)	CS4—C5—CS4^xvi	78.80 (5)
O2—O3—CS4^xxiv	127.12 (9)	CS4—C5—CS4^xxiv	155.73 (7)
O2—O3—C5	27.09 (13)	CS4—C5—C5^xxiv	78.13 (16)
O2—O3—C5^xxiv	62.54 (10)	CS4—C5—H6	71.36 (15)
O2—O3—H6	29.93 (14)	CS4^xv—C5—CS4ⁱⁱⁱ	155.86 (6)
O2—O3—H6ⁱⁱⁱ	150.95 (14)	CS4^xv—C5—CS4^xvi	125.60 (7)
O2—O3—H6^xvi	125.18 (15)	CS4^xv—C5—CS4^xxiv	107.53 (6)
O2ⁱⁱⁱ—O3—O2^xii	89.70 (7)	CS4^xv—C5—C5^xxiv	78.20 (18)
O2ⁱⁱⁱ—O3—O3^xxiii	129.07 (8)	CS4^xv—C5—H6	67.59 (19)
O2ⁱⁱⁱ—O3—CS4^xiv	98.51 (6)	CS4ⁱⁱⁱ—C5—CS4^xvi	73.46 (5)
O2ⁱⁱⁱ—O3—CS4ⁱⁱⁱ	52.22 (4)	CS4ⁱⁱⁱ—C5—CS4^xxiv	67.02 (4)
O2ⁱⁱⁱ—O3—CS4^xvi	106.84 (6)	CS4ⁱⁱⁱ—C5—C5^xxiv	77.66 (18)
O2ⁱⁱⁱ—O3—CS4^xxiv	52.31 (4)	CS4ⁱⁱⁱ—C5—H6	134.74 (19)
O2ⁱⁱⁱ—O3—C5	152.57 (16)	CS4^xvi—C5—CS4^xxiv	119.46 (7)
O2ⁱⁱⁱ—O3—C5^xxiv	117.11 (9)	CS4^xvi—C5—C5^xxiv	135.17 (19)
O2ⁱⁱⁱ—O3—H6	150.37 (14)	CS4^xvi—C5—H6	61.79 (18)
O2ⁱⁱⁱ—O3—H6ⁱⁱⁱ	29.35 (12)	CS4^xxiv—C5—C5^xxiv	77.60 (17)
O2ⁱⁱⁱ—O3—H6^xvi	55.17 (12)	CS4^xxiv—C5—H6	130.10 (15)
O2^xxiii—O3—O3^xxiii	39.37 (6)	C5^xxiv—C5—H6	140.7 (3)
O2^xxiv—O3—CS4^xiv	137.26 (8)	O1^xi—H6—O2	164.5 (6)
O2^xxiv—O3—CS4ⁱⁱⁱ	64.01 (5)	O1^xi—H6—O2^xvii	44.9 (4)
O2^xxiv—O3—CS4^xvi	125.73 (8)	O1^xi—H6—O3	131.7 (6)
O2^xxiv—O3—CS4^xxiv	64.22 (6)	O1^xi—H6—O3^xiii	106.1 (6)
O2^xxiv—O3—C5	62.87 (14)	O1^xi—H6—O3^xxi	103.0 (5)
O2^xxiv—O3—C5^xxiv	27.41 (7)	O1^xi—H6—CS4^xiv	80.4 (4)
O2^xxiv—O3—H6	119.78 (14)	O1^xi—H6—CS4	144.8 (5)
O2^xxiv—O3—H6ⁱⁱⁱ	118.94 (13)	O1^xi—H6—CS4^xv	123.7 (6)
O2^xxiv—O3—H6^xvi	144.87 (14)	O1^xi—H6—CS4^xvi	107.3 (6)
O3^xxiv—O3—CS4^xiv	118.23 (8)	O1^xi—H6—C5	151.1 (6)
O3^xxiv—O3—CS4ⁱⁱⁱ	92.96 (7)	O1^xi—H6—H6^xvii	34.5 (4)
O3^xxiv—O3—CS4^xvi	105.87 (8)	O2—H6—O2^xvii	150.5 (3)
O3^xxiv—O3—CS4^xxiv	92.68 (7)	O2—H6—O3	36.26 (17)
O3^xxiv—O3—C5	23.50 (11)	O2—H6—O3^xiii	84.8 (3)
O3^xxiv—O3—C5^xxiv	11.96 (6)	O2—H6—O3^xxi	90.6 (3)
O3^xxiv—O3—H6	80.44 (14)	O2—H6—CS4^xiv	84.2 (3)
O3^xxiv—O3—H6ⁱⁱⁱ	158.19 (14)	O2—H6—CS4	50.70 (18)
O3^xxiv—O3—H6^xvi	175.76 (14)	O2—H6—CS4^xv	55.1 (2)
CS4^xiv—O3—CS4ⁱⁱⁱ	147.93 (7)	O2—H6—CS4^xvi	74.5 (3)
CS4^xiv—O3—CS4^xvi	91.92 (5)	O2—H6—C5	15.46 (13)
CS4^xiv—O3—CS4^xxiv	88.13 (5)	O2—H6—H6^xvii	160.7 (3)
CS4^xiv—O3—C5	101.75 (14)	O2^xvii—H6—O3	159.7 (3)
CS4^xiv—O3—C5^xxiv	125.61 (9)	O2^xvii—H6—O3^xiii	71.27 (16)
CS4^xiv—O3—H6	58.63 (12)	O2^xvii—H6—O3^xxi	66.46 (14)
CS4^xiv—O3—H6ⁱⁱⁱ	75.14 (13)	O2^xvii—H6—CS4^xiv	125.3 (2)
CS4^xiv—O3—H6^xvi	59.11 (15)	O2^xvii—H6—CS4	99.84 (18)
CS4ⁱⁱⁱ—O3—CS4^xvi	85.96 (5)	O2^xvii—H6—CS4^xv	115.2 (3)
CS4ⁱⁱⁱ—O3—CS4^xxiv	82.84 (4)	O2^xvii—H6—CS4^xvi	103.6 (2)
CS4ⁱⁱⁱ—O3—C5	110.26 (15)	O2^xvii—H6—C5	161.7 (3)
CS4ⁱⁱⁱ—O3—C5^xxiv	83.99 (7)	O2^xvii—H6—H6^xvii	10.45 (14)
CS4ⁱⁱⁱ—O3—H6	141.01 (15)	O3—H6—O3^xiii	121.0 (2)
CS4ⁱⁱⁱ—O3—H6ⁱⁱⁱ	72.87 (13)	O3—H6—O3^xxi	100.2 (2)
CS4ⁱⁱⁱ—O3—H6^xvi	90.17 (15)	O3—H6—CS4^xiv	56.14 (13)
CS4^xvi—O3—CS4^xxiv	158.79 (7)	O3—H6—CS4	80.74 (14)
CS4^xvi—O3—C5	90.84 (14)	O3—H6—CS4^xv	83.58 (15)
CS4^xvi—O3—C5^xxiv	112.96 (8)	O3—H6—CS4^xvi	56.48 (15)
CS4^xvi—O3—H6	59.79 (15)	O3—H6—C5	20.84 (8)
CS4^xvi—O3—H6ⁱⁱⁱ	89.94 (13)	O3—H6—H6^xvii	158.2 (7)
CS4^xvi—O3—H6^xvi	71.49 (12)	O3^xiii—H6—O3^xxi	73.08 (15)
CS4^xxiv—O3—C5	109.92 (15)	O3^xiii—H6—CS4^xiv	142.9 (3)
CS4^xxiv—O3—C5^xxiv	83.74 (7)	O3^xiii—H6—CS4	49.35 (10)
CS4^xxiv—O3—H6	135.49 (16)	O3^xiii—H6—CS4^xv	50.54 (12)
CS4^xxiv—O3—H6ⁱⁱⁱ	69.57 (13)	O3^xiii—H6—CS4^xvi	122.4 (2)
CS4^xxiv—O3—H6^xvi	90.54 (11)	O3^xiii—H6—C5	100.2 (2)
C5—O3—C5^xxiv	35.46 (17)	O3^xiii—H6—H6^xvii	78.6 (4)
C5—O3—H6	56.97 (17)	O3^xxi—H6—CS4^xiv	142.3 (3)
C5—O3—H6ⁱⁱⁱ	176.8 (2)	O3^xxi—H6—CS4	50.23 (10)
C5—O3—H6^xvi	152.3 (2)	O3^xxi—H6—CS4^xv	112.53 (19)
C5^xxiv—O3—H6	92.39 (15)	O3^xxi—H6—CS4^xvi	54.53 (14)
C5^xxiv—O3—H6ⁱⁱⁱ	146.29 (15)	O3^xxi—H6—C5	95.7 (2)
C5^xxiv—O3—H6^xvi	172.28 (14)	O3^xxi—H6—H6^xvii	75.3 (4)
H6—O3—H6ⁱⁱⁱ	121.0 (2)	CS4^xiv—H6—CS4	134.8 (2)
H6—O3—H6^xvi	95.33 (18)	CS4^xiv—H6—CS4^xv	94.89 (19)
H6ⁱⁱⁱ—O3—H6^xvi	26.0 (2)	CS4^xiv—H6—CS4^xvi	88.3 (2)
O1^xix—CS4—O1^xiii	120.79 (4)	CS4^xiv—H6—C5	71.36 (16)
O1^xix—CS4—O2	145.23 (6)	CS4^xiv—H6—H6^xvii	114.96 (12)
O1^xix—CS4—O2^xx	48.62 (5)	CS4—H6—CS4^xv	64.64 (11)
O1^xix—CS4—O2^xv	82.12 (4)	CS4—H6—CS4^xvi	77.29 (15)
O1^xix—CS4—O2^xxi	78.36 (4)	CS4—H6—C5	63.51 (13)
O1^xix—CS4—O3^xx	81.20 (5)	CS4—H6—H6^xvii	110.24 (10)
O1^xix—CS4—O3^xiii	77.45 (4)	CS4^xv—H6—CS4^xvi	128.7 (2)
O1^xix—CS4—O3^xxi	76.53 (4)	CS4^xv—H6—C5	66.28 (14)
O1^xix—CS4—O3^xxiii	154.46 (4)	CS4^xv—H6—H6^xvii	118.0 (7)
O1^xix—CS4—C5	162.26 (5)	CS4^xvi—H6—C5	66.55 (19)
O1^xix—CS4—C5^xx	67.70 (5)	CS4^xvi—H6—H6^xvii	106.4 (7)
O1^xix—CS4—C5^xv	67.78 (4)	C5—H6—H6^xvii	171.0 (6)
O1^xix—CS4—C5^xiii	65.26 (4)

Symmetry codes: (i) x−1, y, z; (ii) −x+1, y, −z+1/2; (iii) x−1/2, y−1/2, z; (iv) x−1/2, y+1/2, z; (v) −x+1/2, y−1/2, −z+1/2; (vi) −x+1/2, y+1/2, −z+1/2; (vii) x−1, y−1, z; (viii) −x+1, y−1, −z+1/2; (ix) −x+1, −y−1, −z+1; (x) x−1, −y−1, z−1/2; (xi) x+1, y, z; (xii) −x+1/2, −y−3/2, −z+1; (xiii) x+1/2, y+1/2, z; (xiv) x, y−1, z; (xv) −x+2, −y, −z+1; (xvi) −x+3/2, y−1/2, −z+1/2; (xvii) −x+2, y, −z+1/2; (xviii) x+1/2, y−1/2, z; (xix) x+1, y+1, z; (xx) x, y+1, z; (xxi) −x+3/2, y+1/2, −z+1/2; (xxii) x−1, −y−1, z+1/2; (xxiii) −x+1/2, −y−3/2, −z; (xxiv) −x+3/2, −y−1/2, −z+1.

Experimental details

	(06mtw0002)	(CSOXJOINTRT_phase_1)
Crystal data
Chemical formula	C₂H₂Cs₂O₅	C₂H₂Cs₂O₅
M_r	371.86	371.84
Crystal system, space group	Monoclinic, C2/c	Monoclinic, C2/c
Temperature (K)	289	?
a, b, c (Å)	10.0748 (5), 6.6473 (3), 11.2997 (6)	10.1125 (6), 6.6535 (4), 11.3255 (7)
α, β, γ (°)	90, 107.189 (3), 90	90, 107.191 (4), 90
V (Å³)	722.94 (6)	727.98 (9)
Z	4	4
Radiation type	Mo Kα	?, λ = 1.36 Å
µ (mm⁻¹)	10.04	–
Specimen shape, size (mm)	0.2 × 0.11 × 0.07	?, ? × ? × ?

Data collection
Diffractometer	Bruker-Nonius CCD camera on κ-goniostat diffractometer	?
Specimen mounting	–	?
Data collection mode	–	?
Data collection method	ϕ & ω scans to fill the asymmetric unit	?
Absorption correction	Multi-scan SADABS V2.10 (Sheldrick, G.M., 2003)	–
T_min, T_max	0.206, 0.501	–
No. of measured, independent and observed [I > 2σ(I)] reflections	4032, 809, 700	–
R_int	0.067	–
θ values (°)	θ_max = 27.3, θ_min = 3.7	2θ_min = −0.400 2θ_max = 154.400 2θ_step = 0.1
(sin θ/λ)_max (Å⁻¹)	0.646	–

Refinement
R factors and goodness of fit	R[F² > 2σ(F²)] = 0.025, wR(F²) = 0.054, S = 1.17	R_p = 0.010, R_wp = 0.013, R_exp = 0.009, R(F²) = 0.06304, χ² = 2.789
No. of reflections/data points	809	1549
No. of parameters	47	73
H-atom treatment	All H-atom parameters refined	?
Δρ_max, Δρ_min (e Å⁻³)	0.96, −0.90	–

Computer programs: , DENZO (Otwinowski & Minor, 1997) & COLLECT (Hooft, R.W.W., 1998), SHELXS97 (Sheldrick, 1997), SHELXL97 (Sheldrick, 1997), GSAS, CAMERON (Watkin, et al., 1993), WinGX (Farrugia, 1998).

Hydrogen-bond geometry (Å, º) for (06mtw0002) top

D—H···A	D—H	H···A	D···A	D—H···A
O3—H1···O1ⁱ	0.81 (6)	2.05 (5)	2.819 (4)	161 (6)

Symmetry code: (i) −x+3/2, y−1/2, −z+1/2.

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