Modulated structure of potassium sodium strontium barium niobates (KNSBN): harmonic solution

Surmin, A.; Fertey, P.; Schaniel, D.; Woike, T.

doi:10.1107/S0108768106001510

Modulated structure of potassium sodium strontium barium niobates (KNSBN): harmonic solution

A. Surmin, P. Fertey, D. Schaniel and T. Woike

The structures of two specimens of the (K_1 - yNa_y)_2F - 2(Sr_xBa_1 - x)_2 - FNb₂O₆ family (KNSBN) have been solved and refined (x^I = 0.6, y^I = 0.45, F^I = 1.07 and x^II = 0.72, y^II = 0.45, F^II = 1.08). The KNSBN compounds appear to be incommensurately modulated, as described in a five-dimensional superspace approach with the tetragonal P4bm (pp1/2, p - p1/2) superspace group. Their modulation wavevectors are almost independent of the composition. The description of the modulation is restricted to first-order harmonics in order to limit the number of refined parameters. The modulation mainly affects the positions of the O atoms and their displacements depend on the Sr/Ba ratio. The structural models for the two compounds are not only almost identical, but also analoguous to the structural model of the Sr_xBa_1 - xNb₂O₆ parent compound: doping with K⁺ and Na⁺ cations has no significant influence on the incommensurate modulation, contrary to the strong dependence observed for the physical properties.

Keywords: modulated structure; first-order harmonics; photorefractive properties.

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Supporting information

	Crystallographic Information File (CIF) https://doi.org/10.1107/S0108768106001510/ck5014sup1.cif Contains datablocks global, I, (KNSBN72)
	Structure factor file (CIF format) https://doi.org/10.1107/S0108768106001510/ck5014Isup2.hkl Contains datablock I
	Structure factor file (CIF format) https://doi.org/10.1107/S0108768106001510/ck5014IIsup3.hkl Contains datablock II

Computing details top

For both compounds, program(s) used to refine structure: (Jana2000; Petricek and Dusek, 2000); software used to prepare material for publication: (Jana2000; Petricek and Dusek, 2000).

Figures top

(I) top

Crystal data top

Ba_0.38K_0.085Na_0.07Nb₂O₆Sr_0.56	F(000) = 1740
M_r = 388	D_x = 5.283 Mg m⁻³
Tetragonal, X4bm†	Mo Kα radiation, λ = 0.71069 Å
q₁ = 0.31100a* + 0.31100b; q₂ = 0.31100a + -0.31100b*	Cell parameters from 4101 reflections
a = 12.4375 (5) Å	µ = 13.79 mm⁻¹
c = 7.8807 (2) Å	T = 293 K
V = 1219.08 (8) Å³	Sphere, tranparent
Z = 10	0.08 mm (radius)

Data collection top

Nonius CCD diffractometer	7718 reflections with I > 3σ(I)
w scan, intergration method	R_int = 0.038
Absorption correction: for a sphere (Jana2000; Petricek and Dusek, 2000)	θ_max = 59.6°, θ_min = 3.0°
T_min = 0.221, T_max = 0.228	h = −27→29
144596 measured reflections	k = −30→28
8612 independent reflections	l = −18→18

Refinement top

Refinement on F	Weighting scheme based on measured s.u.'s w = 1/(σ²(F) + 0.0004F²)
R[F² > 2σ(F²)] = 0.051	(Δ/σ)_max = 0.026
wR(F²) = 0.087	Δρ_max = 3.64 e Å⁻³
S = 2.61	Δρ_min = −5.83 e Å⁻³
8612 reflections	Extinction correction: B-C type 1 Lorentzian isotropic (Becker & Coppens, 1974)
150 parameters	Extinction coefficient: 0.058 (4)

Crystal data top

Ba_0.38K_0.085Na_0.07Nb₂O₆Sr_0.56	V = 1219.08 (8) Å³
M_r = 388	Z = 10
Tetragonal, X4bm†	Mo Kα radiation
q₁ = 0.31100a* + 0.31100b; q₂ = 0.31100a + -0.31100b*	µ = 13.79 mm⁻¹
a = 12.4375 (5) Å	T = 293 K
c = 7.8807 (2) Å	0.08 mm (radius)

Data collection top

Nonius CCD diffractometer	8612 independent reflections
Absorption correction: for a sphere (Jana2000; Petricek and Dusek, 2000)	7718 reflections with I > 3σ(I)
T_min = 0.221, T_max = 0.228	R_int = 0.038
144596 measured reflections

Refinement top

R[F² > 2σ(F²)] = 0.051	150 parameters
wR(F²) = 0.087	Δρ_max = 3.64 e Å⁻³
S = 2.61	Δρ_min = −5.83 e Å⁻³
8612 reflections

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

	x	y	z	U_iso*/U_eq	Occ. (<1)
Nb1	0	0.5	0.00125 (9)	0.00610 (5)
Nb2	0.074775 (15)	0.211720 (14)	−0.00588 (8)	0.00691 (4)
Sr1	0	0	0.23884 (11)	0.00707 (9)	0.730 (3)
O1	0.34344 (15)	0.00549 (16)	−0.0262 (4)	0.0118 (4)
O2	0.13858 (17)	0.06904 (14)	−0.0287 (3)	0.0107 (4)
O3	0.28172 (16)	0.78172 (16)	−0.0229 (4)	0.0100 (5)
O4	0	0.5	0.2307 (6)	0.0190 (8)
O5	0.29600 (16)	0.42432 (15)	0.2273 (3)	0.0126 (5)
Ba	0.17168 (2)	0.67168 (2)	0.240438	0.02187 (7)	0.403 (6)
Sr2	0.17168 (2)	0.67168 (2)	0.240438	0.02187 (7)	0.411 (7)
Na1	0	0	0.23884 (11)	0.00707 (9)	0.175
K	0.17168 (2)	0.67168 (2)	0.240438	0.02187 (7)	0.1062

Atomic displacement parameters (Å²) top

	U¹¹	U²²	U³³	U¹²	U¹³	U²³
Nb1	0.00649 (8)	0.00649 (8)	0.00533 (11)	−0.00017 (8)	0	0
Nb2	0.00727 (7)	0.00625 (6)	0.00720 (7)	0.00083 (4)	0.00020 (8)	−0.00146 (8)
Sr1	0.00684 (12)	0.00684 (12)	0.0075 (2)	0	0	0
O1	0.0063 (5)	0.0148 (7)	0.0144 (9)	−0.0040 (5)	−0.0019 (8)	0.0032 (8)
O2	0.0172 (8)	0.0068 (5)	0.0081 (9)	0.0062 (5)	−0.0011 (7)	−0.0034 (6)
O3	0.0098 (5)	0.0098 (5)	0.0105 (12)	0.0032 (6)	0.0037 (7)	0.0037 (7)
O4	0.0259 (13)	0.0259 (13)	0.0052 (15)	0.0048 (15)	0	0
O5	0.0148 (8)	0.0195 (10)	0.0034 (8)	−0.0030 (7)	0.0007 (6)	−0.0014 (8)
Ba	0.02641 (11)	0.02641 (11)	0.01278 (14)	−0.01650 (14)	−0.00053 (10)	−0.00053 (10)
Sr2	0.02641 (11)	0.02641 (11)	0.01278 (14)	−0.01650 (14)	−0.00053 (10)	−0.00053 (10)
Na1	0.00684 (12)	0.00684 (12)	0.0075 (2)	0	0	0
K	0.02641 (11)	0.02641 (11)	0.01278 (14)	−0.01650 (14)	−0.00053 (10)	−0.00053 (10)

Bond lengths (Å) top

	Average	Minimum	Maximum
Nb1—O1ⁱ	1.969 (5)	1.954 (5)	1.994 (5)
Nb1—O1ⁱⁱ	1.969 (5)	1.954 (5)	1.994 (5)
Nb1—O1ⁱⁱⁱ	1.969 (5)	1.954 (5)	1.995 (5)
Nb1—O1^iv	1.969 (5)	1.954 (5)	1.995 (5)
Nb1—O4	1.823 (8)	1.731 (13)	1.886 (13)
Nb1—O4^v	2.148 (8)	2.061 (13)	2.203 (13)
Nb2—O1ⁱ	1.933 (5)	1.914 (5)	1.961 (5)
Nb2—O2	1.959 (5)	1.942 (5)	1.994 (5)
Nb2—O2ⁱ	2.021 (5)	2.000 (5)	2.052 (5)
Nb2—O3^vi	1.994 (6)	1.971 (6)	2.024 (6)
Nb2—O5^vii	1.854 (6)	1.812 (6)	1.900 (6)
Nb2—O5^viii	2.121 (6)	2.067 (6)	2.176 (6)
Sr1—O2	2.856 (5)	2.581 (5)	3.138 (5)
Sr1—O2^ix	2.661 (5)	2.497 (5)	2.846 (5)
Sr1—O2ⁱ	2.856 (5)	2.581 (5)	3.138 (5)
Sr1—O2^x	2.661 (5)	2.497 (5)	2.846 (5)
Sr1—O2^xi	2.856 (5)	2.581 (5)	3.138 (5)
Sr1—O2^xii	2.661 (5)	2.497 (5)	2.846 (5)
Sr1—O2^xiii	2.856 (5)	2.581 (5)	3.138 (5)
Sr1—O2^xiv	2.661 (5)	2.497 (5)	2.846 (5)
Sr1—O5^xv	2.718 (5)	2.603 (5)	2.827 (5)
Sr1—O5^vii	2.718 (5)	2.603 (5)	2.827 (5)
Sr1—O5^iv	2.718 (5)	2.603 (5)	2.827 (5)
Sr1—O5^xvi	2.718 (5)	2.603 (5)	2.827 (5)
Ba—O1ⁱⁱ	2.948 (6)	2.727 (6)	3.208 (6)
Ba—O1^xvii	2.772 (6)	2.635 (6)	2.946 (6)
Ba—O1ⁱⁱⁱ	2.955 (6)	2.728 (6)	3.208 (6)
Ba—O1^xviii	2.776 (6)	2.635 (6)	2.946 (6)
Ba—O3	2.837 (5)	2.681 (6)	3.002 (6)
Ba—O3^ix	2.690 (5)	2.615 (6)	2.774 (6)
Ba—O4	3.032 (4)	2.751 (4)	3.291 (4)
Ba—O5	3.464 (5)	2.914 (5)	3.976 (5)
Ba—O5ⁱⁱ	3.163 (5)	2.679 (5)	3.662 (5)
Ba—O5ⁱⁱⁱ	3.180 (5)	2.678 (5)	3.664 (5)
Ba—O5^xix	3.438 (5)	2.914 (5)	3.976 (5)
Sr2—O1ⁱⁱ	2.948 (6)	2.727 (6)	3.208 (6)
Sr2—O1^xvii	2.772 (6)	2.635 (6)	2.946 (6)
Sr2—O1ⁱⁱⁱ	2.955 (6)	2.728 (6)	3.208 (6)
Sr2—O1^xviii	2.776 (6)	2.635 (6)	2.946 (6)
Sr2—O3	2.837 (5)	2.681 (6)	3.002 (6)
Sr2—O3^ix	2.690 (5)	2.615 (6)	2.774 (6)
Sr2—O4	3.032 (4)	2.751 (4)	3.291 (4)
Sr2—O5	3.464 (5)	2.914 (5)	3.976 (5)
Sr2—O5ⁱⁱ	3.163 (5)	2.679 (5)	3.662 (5)
Sr2—O5ⁱⁱⁱ	3.180 (5)	2.678 (5)	3.664 (5)
Sr2—O5^xix	3.438 (5)	2.914 (5)	3.976 (5)
Na1—O2	2.856 (5)	2.581 (5)	3.138 (5)
Na1—O2^ix	2.661 (5)	2.497 (5)	2.846 (5)
Na1—O2ⁱ	2.856 (5)	2.581 (5)	3.138 (5)
Na1—O2^x	2.661 (5)	2.497 (5)	2.846 (5)
Na1—O2^xi	2.856 (5)	2.581 (5)	3.138 (5)
Na1—O2^xii	2.661 (5)	2.497 (5)	2.846 (5)
Na1—O2^xiii	2.856 (5)	2.581 (5)	3.138 (5)
Na1—O2^xiv	2.661 (5)	2.497 (5)	2.846 (5)
Na1—O5^xv	2.718 (5)	2.603 (5)	2.827 (5)
Na1—O5^vii	2.718 (5)	2.603 (5)	2.827 (5)
Na1—O5^iv	2.718 (5)	2.603 (5)	2.827 (5)
Na1—O5^xvi	2.718 (5)	2.603 (5)	2.827 (5)
K—O1ⁱⁱ	2.948 (6)	2.727 (6)	3.208 (6)
K—O1^xvii	2.772 (6)	2.635 (6)	2.946 (6)
K—O1ⁱⁱⁱ	2.955 (6)	2.728 (6)	3.208 (6)
K—O1^xviii	2.776 (6)	2.635 (6)	2.946 (6)
K—O3	2.837 (5)	2.681 (6)	3.002 (6)
K—O3^ix	2.690 (5)	2.615 (6)	2.774 (6)
K—O4	3.032 (4)	2.751 (4)	3.291 (4)
K—O5	3.464 (5)	2.914 (5)	3.976 (5)
K—O5ⁱⁱ	3.163 (5)	2.679 (5)	3.662 (5)
K—O5ⁱⁱⁱ	3.180 (5)	2.678 (5)	3.664 (5)
K—O5^xix	3.438 (5)	2.914 (5)	3.976 (5)

Symmetry codes: (i) −x₂, x₁, x₃, x₅, −x₄; (ii) −x₁+1/2, x₂+1/2, x₃, −x₅, −x₄; (iii) x₂, −x₁+1, x₃, −x₅, x₄; (iv) x₁−1/2, −x₂+1/2, x₃, x₅, x₄; (v) x₁, x₂, x₃−1/2, x₁/2, x₁/2; (vi) −x₂+1, x₁, x₃, x₅, −x₄; (vii) −x₂+1/2, −x₁+1/2, x₃, −x₄, x₅; (viii) −x₂+1/2, −x₁+1/2, x₃−1/2, −x₁/2, x₁/2; (ix) x₁, x₂, x₃+1/2, x₁/2, x₁/2; (x) −x₂, x₁, x₃+1/2, x₁/2, −x₁/2; (xi) −x₁, −x₂, x₃, −x₄, −x₅; (xii) −x₁, −x₂, x₃+1/2, −x₁/2, −x₁/2; (xiii) x₂, −x₁, x₃, −x₅, x₄; (xiv) x₂, −x₁, x₃+1/2, −x₁/2, x₁/2; (xv) −x₁+1/2, x₂−1/2, x₃, −x₅, −x₄; (xvi) x₂−1/2, x₁−1/2, x₃, x₄, −x₅; (xvii) −x₁+1/2, x₂+1/2, x₃+1/2, −x₁/2, −x₁/2; (xviii) x₂, −x₁+1, x₃+1/2, −x₁/2, x₁/2; (xix) x₂−1/2, x₁+1/2, x₃, x₄, −x₅.

(KNSBN72) top

Crystal data top

Ba_0.26K_0.09Na_0.08Nb₂O₆Sr_0.67	F(000) = 1719
M_r = 381.6	D_x = 5.221 Mg m⁻³
Tetragonal, X4bm†	Mo Kα radiation, λ = 0.71069 Å
q₁ = 0.30720a* + 0.30720b; q₂ = 0.30720a + -0.30720b*	Cell parameters from 2000 reflections
a = 12.4292 (8) Å	µ = 14.11 mm⁻¹
c = 7.8524 (3) Å	T = 293 K
V = 1213.08 (12) Å³	Sphere, transparent
Z = 10	0.12 mm (radius)

Data collection top

Nonius CCD diffractometer	6196 reflections with I > 3σ(I)
w scan, intergration method	R_int = 0.038
Absorption correction: for a sphere (Jana2000; Petricek and Dusek, 2000)	θ_max = 40.5°, θ_min = 3.3°
T_min = 0.106, T_max = 0.152	h = −22→22
96783 measured reflections	k = −22→19
7577 independent reflections	l = −14→14

Refinement top

Refinement on F	Weighting scheme based on measured s.u.'s w = 1/(σ²(F) + 0.0004F²)
R[F² > 2σ(F²)] = 0.055	(Δ/σ)_max = 0.006
wR(F²) = 0.074	Δρ_max = 3.07 e Å⁻³
S = 2.32	Δρ_min = −5.07 e Å⁻³
6196 reflections	Extinction correction: B-C type 1 Lorentzian isotropic (Becker & Coppens, 1974)
129 parameters	Extinction coefficient: 0.069 (3)

Crystal data top

Ba_0.26K_0.09Na_0.08Nb₂O₆Sr_0.67	V = 1213.08 (12) Å³
M_r = 381.6	Z = 10
Tetragonal, X4bm†	Mo Kα radiation
q₁ = 0.30720a* + 0.30720b; q₂ = 0.30720a + -0.30720b*	µ = 14.11 mm⁻¹
a = 12.4292 (8) Å	T = 293 K
c = 7.8524 (3) Å	0.12 mm (radius)

Data collection top

Nonius CCD diffractometer	7577 independent reflections
Absorption correction: for a sphere (Jana2000; Petricek and Dusek, 2000)	6196 reflections with I > 3σ(I)
T_min = 0.106, T_max = 0.152	R_int = 0.038
96783 measured reflections

Refinement top

R[F² > 2σ(F²)] = 0.055	129 parameters
wR(F²) = 0.074	Δρ_max = 3.07 e Å⁻³
S = 2.32	Δρ_min = −5.07 e Å⁻³
6196 reflections

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

	x	y	z	U_iso*/U_eq	Occ. (<1)
Nb1	0	0.5	0.00128 (12)	0.00738 (8)
Nb2	0.074907 (18)	0.211795 (17)	−0.00681 (10)	0.00831 (6)
Sr1	0	0	0.23820 (13)	0.00745 (13)	0.712 (4)
O1	0.34394 (15)	0.00525 (14)	−0.0263 (3)	0.0090 (3)*
O2	0.13855 (16)	0.06807 (15)	−0.0286 (3)	0.0106 (3)*
O3	0.28142 (15)	0.78142 (15)	−0.0207 (4)	0.0093 (4)*
O4	0	0.5	0.2334 (7)	0.0184 (8)*
O5	0.29630 (13)	0.42457 (15)	0.2277 (3)	0.0091 (4)*
Ba	0.17129 (3)	0.67129 (3)	0.240438	0.02574 (9)	0.247 (8)
Sr2	0.17129 (3)	0.67129 (3)	0.240438	0.02574 (9)	0.560 (8)
Na1	0	0	0.23820 (13)	0.00745 (13)	0.1975
K	0.17129 (3)	0.67129 (3)	0.240438	0.02574 (9)	0.12

Atomic displacement parameters (Å²) top

	U¹¹	U²²	U³³	U¹²	U¹³	U²³
Nb1	0.00770 (11)	0.00770 (11)	0.00672 (17)	−0.00021 (11)	0	0
Nb2	0.00844 (10)	0.00717 (10)	0.00933 (12)	0.00080 (5)	0.00013 (11)	−0.00158 (11)
Sr1	0.00702 (18)	0.00702 (18)	0.0083 (3)	0	0	0
Ba	0.03204 (13)	0.03204 (13)	0.0131 (2)	−0.0214 (2)	0.00100 (15)	0.00100 (15)
Sr2	0.03204 (13)	0.03204 (13)	0.0131 (2)	−0.0214 (2)	0.00100 (15)	0.00100 (15)
Na1	0.00702 (18)	0.00702 (18)	0.0083 (3)	0	0	0
K	0.03204 (13)	0.03204 (13)	0.0131 (2)	−0.0214 (2)	0.00100 (15)	0.00100 (15)

Bond lengths (Å) top

	Average	Minimum	Maximum
Nb1—O1ⁱ	1.968 (5)	1.923 (5)	2.018 (5)
Nb1—O1ⁱⁱ	1.968 (5)	1.923 (5)	2.018 (5)
Nb1—O1ⁱⁱⁱ	1.967 (5)	1.923 (5)	2.018 (5)
Nb1—O1^iv	1.967 (5)	1.923 (5)	2.018 (5)
Nb1—O4	1.842 (9)	1.734 (14)	1.911 (13)
Nb1—O4^v	2.127 (9)	2.024 (14)	2.187 (10)
Nb2—O1ⁱ	1.940 (5)	1.887 (5)	2.000 (5)
Nb2—O2	1.972 (5)	1.943 (5)	2.011 (5)
Nb2—O2ⁱ	2.013 (5)	1.971 (5)	2.051 (5)
Nb2—O3^vi	1.995 (5)	1.944 (5)	2.050 (5)
Nb2—O5^vii	1.863 (6)	1.805 (6)	1.915 (6)
Nb2—O5^viii	2.110 (6)	2.055 (6)	2.174 (6)
Sr1—O2	2.843 (5)	2.533 (5)	3.165 (5)
Sr1—O2^ix	2.656 (5)	2.433 (5)	2.906 (5)
Sr1—O2ⁱ	2.843 (5)	2.533 (5)	3.165 (5)
Sr1—O2^x	2.656 (5)	2.433 (5)	2.906 (5)
Sr1—O2^xi	2.843 (5)	2.533 (5)	3.165 (5)
Sr1—O2^xii	2.656 (5)	2.433 (5)	2.906 (5)
Sr1—O2^xiii	2.843 (5)	2.533 (5)	3.165 (5)
Sr1—O2^xiv	2.656 (5)	2.433 (5)	2.906 (5)
Sr1—O5^xv	2.718 (4)	2.573 (4)	2.841 (4)
Sr1—O5^vii	2.718 (4)	2.573 (4)	2.841 (4)
Sr1—O5^iv	2.718 (4)	2.573 (4)	2.841 (4)
Sr1—O5^xvi	2.718 (4)	2.573 (4)	2.841 (4)
Ba—O1ⁱⁱ	2.940 (5)	2.643 (5)	3.299 (5)
Ba—O1^xvii	2.768 (5)	2.604 (5)	2.976 (5)
Ba—O1ⁱⁱⁱ	2.949 (5)	2.643 (5)	3.299 (5)
Ba—O1^xviii	2.772 (5)	2.604 (5)	2.976 (5)
Ba—O3	2.820 (5)	2.622 (6)	3.039 (6)
Ba—O3^ix	2.699 (5)	2.578 (5)	2.835 (6)
Ba—O4	3.025 (4)	2.657 (4)	3.366 (4)
Ba—O5	3.462 (5)	2.775 (5)	4.105 (5)
Ba—O5ⁱⁱ	3.167 (5)	2.550 (5)	3.804 (5)
Ba—O5ⁱⁱⁱ	3.188 (5)	2.549 (5)	3.805 (5)
Ba—O5^xix	3.430 (5)	2.774 (5)	4.105 (5)
Sr2—O1ⁱⁱ	2.940 (5)	2.643 (5)	3.299 (5)
Sr2—O1^xvii	2.768 (5)	2.604 (5)	2.976 (5)
Sr2—O1ⁱⁱⁱ	2.949 (5)	2.643 (5)	3.299 (5)
Sr2—O1^xviii	2.772 (5)	2.604 (5)	2.976 (5)
Sr2—O3	2.820 (5)	2.622 (6)	3.039 (6)
Sr2—O3^ix	2.699 (5)	2.578 (5)	2.835 (6)
Sr2—O4	3.025 (4)	2.657 (4)	3.366 (4)
Sr2—O5	3.462 (5)	2.775 (5)	4.105 (5)
Sr2—O5ⁱⁱ	3.167 (5)	2.550 (5)	3.804 (5)
Sr2—O5ⁱⁱⁱ	3.188 (5)	2.549 (5)	3.805 (5)
Sr2—O5^xix	3.430 (5)	2.774 (5)	4.105 (5)
Na1—O2	2.843 (5)	2.533 (5)	3.165 (5)
Na1—O2^ix	2.656 (5)	2.433 (5)	2.906 (5)
Na1—O2ⁱ	2.843 (5)	2.533 (5)	3.165 (5)
Na1—O2^x	2.656 (5)	2.433 (5)	2.906 (5)
Na1—O2^xi	2.843 (5)	2.533 (5)	3.165 (5)
Na1—O2^xii	2.656 (5)	2.433 (5)	2.906 (5)
Na1—O2^xiii	2.843 (5)	2.533 (5)	3.165 (5)
Na1—O2^xiv	2.656 (5)	2.433 (5)	2.906 (5)
Na1—O5^xv	2.718 (4)	2.573 (4)	2.841 (4)
Na1—O5^vii	2.718 (4)	2.573 (4)	2.841 (4)
Na1—O5^iv	2.718 (4)	2.573 (4)	2.841 (4)
Na1—O5^xvi	2.718 (4)	2.573 (4)	2.841 (4)
K—O1ⁱⁱ	2.940 (5)	2.643 (5)	3.299 (5)
K—O1^xvii	2.768 (5)	2.604 (5)	2.976 (5)
K—O1ⁱⁱⁱ	2.949 (5)	2.643 (5)	3.299 (5)
K—O1^xviii	2.772 (5)	2.604 (5)	2.976 (5)
K—O3	2.820 (5)	2.622 (6)	3.039 (6)
K—O3^ix	2.699 (5)	2.578 (5)	2.835 (6)
K—O4	3.025 (4)	2.657 (4)	3.366 (4)
K—O5	3.462 (5)	2.775 (5)	4.105 (5)
K—O5ⁱⁱ	3.167 (5)	2.550 (5)	3.804 (5)
K—O5ⁱⁱⁱ	3.188 (5)	2.549 (5)	3.805 (5)
K—O5^xix	3.430 (5)	2.774 (5)	4.105 (5)

Experimental details

	(I)	(KNSBN72)
Crystal data
Chemical formula	Ba_0.38K_0.085Na_0.07Nb₂O₆Sr_0.56	Ba_0.26K_0.09Na_0.08Nb₂O₆Sr_0.67
M_r	388	381.6
Crystal system, space group	Tetragonal, X4bm†	Tetragonal, X4bm‡
Temperature (K)	293	293
Wave vectors	q₁ = 0.31100a* + 0.31100b; q₂ = 0.31100a + -0.31100b*	q₁ = 0.30720a* + 0.30720b; q₂ = 0.30720a + -0.30720b*
a, c (Å)	12.4375 (5), 7.8807 (2)	12.4292 (8), 7.8524 (3)
V (Å³)	1219.08 (8)	1213.08 (12)
Z	10	10
Radiation type	Mo Kα	Mo Kα
µ (mm⁻¹)	13.79	14.11
Crystal size (mm)	0.08 (radius)	0.12 (radius)

Data collection
Diffractometer	Nonius CCD diffractometer	Nonius CCD diffractometer
Absorption correction	For a sphere (Jana2000; Petricek and Dusek, 2000)	For a sphere (Jana2000; Petricek and Dusek, 2000)
T_min, T_max	0.221, 0.228	0.106, 0.152
No. of measured, independent and observed [I > 3σ(I)] reflections	144596, 8612, 7718	96783, 7577, 6196
R_int	0.038	0.038
(sin θ/λ)_max (Å⁻¹)	1.214	0.913

Refinement
R[F² > 2σ(F²)], wR(F²), S	0.051, 0.087, 2.61	0.055, 0.074, 2.32
No. of reflections	8612	6196
No. of parameters	150	129
No. of restraints	?	?
Δρ_max, Δρ_min (e Å⁻³)	3.64, −5.83	3.07, −5.07

† Symmetry operations: (1) x₁, x₂, x₃, x₄, x₅; (2) −x₂, x₁, x₃, x₅, −x₄; (3) 1/2−x₁, 1/2+x₂, x₃, −x₅, −x₄; (4) −x₁, −x₂, x₃, −x₄, −x₅; (5) 1/2−x₂, 1/2−x₁, x₃, −x₄, x₅; (6) x₂, −x₁, x₃, −x₅, x₄; (7) 1/2+x₁, 1/2−x₂, x₃, x₅, x₄; (8) 1/2+x₂, 1/2+x₁, x₃, x₄, −x₅; (9) x₁, x₂, 1/2+x₃, 1/2+x₄, 1/2+x₅; (10) −x₂, x₁, 1/2+x₃, 1/2+x₅, 1/2−x₄; (11) 1/2−x₁, 1/2+x₂, 1/2+x₃, 1/2−x₅, 1/2−x₄; (12) −x₁, −x₂, 1/2+x₃, 1/2−x₄, 1/2−x₅; (13) 1/2−x₂, 1/2−x₁, 1/2+x₃, 1/2−x₄, 1/2+x₅; (14) x₂, −x₁, 1/2+x₃, 1/2−x₅, 1/2+x₄; (15) 1/2+x₁, 1/2−x₂, 1/2+x₃, 1/2+x₅, 1/2+x₄; (16) 1/2+x₂, 1/2+x₁, 1/2+x₃, 1/2+x₄, 1/2−x₅.

‡ Symmetry operations: (1) x₁, x₂, x₃, x₄, x₅; (2) −x₂, x₁, x₃, x₅, −x₄; (3) 1/2−x₁, 1/2+x₂, x₃, −x₅, −x₄; (4) −x₁, −x₂, x₃, −x₄, −x₅; (5) 1/2−x₂, 1/2−x₁, x₃, −x₄, x₅; (6) x₂, −x₁, x₃, −x₅, x₄; (7) 1/2+x₁, 1/2−x₂, x₃, x₅, x₄; (8) 1/2+x₂, 1/2+x₁, x₃, x₄, −x₅; (9) x₁, x₂, 1/2+x₃, 1/2+x₄, 1/2+x₅; (10) −x₂, x₁, 1/2+x₃, 1/2+x₅, 1/2−x₄; (11) 1/2−x₁, 1/2+x₂, 1/2+x₃, 1/2−x₅, 1/2−x₄; (12) −x₁, −x₂, 1/2+x₃, 1/2−x₄, 1/2−x₅; (13) 1/2−x₂, 1/2−x₁, 1/2+x₃, 1/2−x₄, 1/2+x₅; (14) x₂, −x₁, 1/2+x₃, 1/2−x₅, 1/2+x₄; (15) 1/2+x₁, 1/2−x₂, 1/2+x₃, 1/2+x₅, 1/2+x₄; (16) 1/2+x₂, 1/2+x₁, 1/2+x₃, 1/2+x₄, 1/2−x₅.

Computer programs: (Jana2000; Petricek and Dusek, 2000).

Selected bond lengths (Å) for (I) top

	Average	Minimum	Maximum
Nb1—O1ⁱ	1.969 (5)	1.954 (5)	1.994 (5)
Nb1—O1ⁱⁱ	1.969 (5)	1.954 (5)	1.994 (5)
Nb1—O1ⁱⁱⁱ	1.969 (5)	1.954 (5)	1.995 (5)
Nb1—O1^iv	1.969 (5)	1.954 (5)	1.995 (5)
Nb1—O4	1.823 (8)	1.731 (13)	1.886 (13)
Nb1—O4^v	2.148 (8)	2.061 (13)	2.203 (13)
Nb2—O1ⁱ	1.933 (5)	1.914 (5)	1.961 (5)
Nb2—O2	1.959 (5)	1.942 (5)	1.994 (5)
Nb2—O2ⁱ	2.021 (5)	2.000 (5)	2.052 (5)
Nb2—O3^vi	1.994 (6)	1.971 (6)	2.024 (6)
Nb2—O5^vii	1.854 (6)	1.812 (6)	1.900 (6)
Nb2—O5^viii	2.121 (6)	2.067 (6)	2.176 (6)
Sr1—O2	2.856 (5)	2.581 (5)	3.138 (5)
Sr1—O2^ix	2.661 (5)	2.497 (5)	2.846 (5)
Sr1—O2ⁱ	2.856 (5)	2.581 (5)	3.138 (5)
Sr1—O2^x	2.661 (5)	2.497 (5)	2.846 (5)
Sr1—O2^xi	2.856 (5)	2.581 (5)	3.138 (5)
Sr1—O2^xii	2.661 (5)	2.497 (5)	2.846 (5)
Sr1—O2^xiii	2.856 (5)	2.581 (5)	3.138 (5)
Sr1—O2^xiv	2.661 (5)	2.497 (5)	2.846 (5)
Sr1—O5^xv	2.718 (5)	2.603 (5)	2.827 (5)
Sr1—O5^vii	2.718 (5)	2.603 (5)	2.827 (5)
Sr1—O5^iv	2.718 (5)	2.603 (5)	2.827 (5)
Sr1—O5^xvi	2.718 (5)	2.603 (5)	2.827 (5)
Ba—O1ⁱⁱ	2.948 (6)	2.727 (6)	3.208 (6)
Ba—O1^xvii	2.772 (6)	2.635 (6)	2.946 (6)
Ba—O1ⁱⁱⁱ	2.955 (6)	2.728 (6)	3.208 (6)
Ba—O1^xviii	2.776 (6)	2.635 (6)	2.946 (6)
Ba—O3	2.837 (5)	2.681 (6)	3.002 (6)
Ba—O3^ix	2.690 (5)	2.615 (6)	2.774 (6)
Ba—O4	3.032 (4)	2.751 (4)	3.291 (4)
Ba—O5	3.464 (5)	2.914 (5)	3.976 (5)
Ba—O5ⁱⁱ	3.163 (5)	2.679 (5)	3.662 (5)
Ba—O5ⁱⁱⁱ	3.180 (5)	2.678 (5)	3.664 (5)
Ba—O5^xix	3.438 (5)	2.914 (5)	3.976 (5)
Sr2—O1ⁱⁱ	2.948 (6)	2.727 (6)	3.208 (6)
Sr2—O1^xvii	2.772 (6)	2.635 (6)	2.946 (6)
Sr2—O1ⁱⁱⁱ	2.955 (6)	2.728 (6)	3.208 (6)
Sr2—O1^xviii	2.776 (6)	2.635 (6)	2.946 (6)
Sr2—O3	2.837 (5)	2.681 (6)	3.002 (6)
Sr2—O3^ix	2.690 (5)	2.615 (6)	2.774 (6)
Sr2—O4	3.032 (4)	2.751 (4)	3.291 (4)
Sr2—O5	3.464 (5)	2.914 (5)	3.976 (5)
Sr2—O5ⁱⁱ	3.163 (5)	2.679 (5)	3.662 (5)
Sr2—O5ⁱⁱⁱ	3.180 (5)	2.678 (5)	3.664 (5)
Sr2—O5^xix	3.438 (5)	2.914 (5)	3.976 (5)
Na1—O2	2.856 (5)	2.581 (5)	3.138 (5)
Na1—O2^ix	2.661 (5)	2.497 (5)	2.846 (5)
Na1—O2ⁱ	2.856 (5)	2.581 (5)	3.138 (5)
Na1—O2^x	2.661 (5)	2.497 (5)	2.846 (5)
Na1—O2^xi	2.856 (5)	2.581 (5)	3.138 (5)
Na1—O2^xii	2.661 (5)	2.497 (5)	2.846 (5)
Na1—O2^xiii	2.856 (5)	2.581 (5)	3.138 (5)
Na1—O2^xiv	2.661 (5)	2.497 (5)	2.846 (5)
Na1—O5^xv	2.718 (5)	2.603 (5)	2.827 (5)
Na1—O5^vii	2.718 (5)	2.603 (5)	2.827 (5)
Na1—O5^iv	2.718 (5)	2.603 (5)	2.827 (5)
Na1—O5^xvi	2.718 (5)	2.603 (5)	2.827 (5)
K—O1ⁱⁱ	2.948 (6)	2.727 (6)	3.208 (6)
K—O1^xvii	2.772 (6)	2.635 (6)	2.946 (6)
K—O1ⁱⁱⁱ	2.955 (6)	2.728 (6)	3.208 (6)
K—O1^xviii	2.776 (6)	2.635 (6)	2.946 (6)
K—O3	2.837 (5)	2.681 (6)	3.002 (6)
K—O3^ix	2.690 (5)	2.615 (6)	2.774 (6)
K—O4	3.032 (4)	2.751 (4)	3.291 (4)
K—O5	3.464 (5)	2.914 (5)	3.976 (5)
K—O5ⁱⁱ	3.163 (5)	2.679 (5)	3.662 (5)
K—O5ⁱⁱⁱ	3.180 (5)	2.678 (5)	3.664 (5)
K—O5^xix	3.438 (5)	2.914 (5)	3.976 (5)

Selected bond lengths (Å) for (KNSBN72) top

	Average	Minimum	Maximum
Nb1—O1ⁱ	1.968 (5)	1.923 (5)	2.018 (5)
Nb1—O1ⁱⁱ	1.968 (5)	1.923 (5)	2.018 (5)
Nb1—O1ⁱⁱⁱ	1.967 (5)	1.923 (5)	2.018 (5)
Nb1—O1^iv	1.967 (5)	1.923 (5)	2.018 (5)
Nb1—O4	1.842 (9)	1.734 (14)	1.911 (13)
Nb1—O4^v	2.127 (9)	2.024 (14)	2.187 (10)
Nb2—O1ⁱ	1.940 (5)	1.887 (5)	2.000 (5)
Nb2—O2	1.972 (5)	1.943 (5)	2.011 (5)
Nb2—O2ⁱ	2.013 (5)	1.971 (5)	2.051 (5)
Nb2—O3^vi	1.995 (5)	1.944 (5)	2.050 (5)
Nb2—O5^vii	1.863 (6)	1.805 (6)	1.915 (6)
Nb2—O5^viii	2.110 (6)	2.055 (6)	2.174 (6)
Sr1—O2	2.843 (5)	2.533 (5)	3.165 (5)
Sr1—O2^ix	2.656 (5)	2.433 (5)	2.906 (5)
Sr1—O2ⁱ	2.843 (5)	2.533 (5)	3.165 (5)
Sr1—O2^x	2.656 (5)	2.433 (5)	2.906 (5)
Sr1—O2^xi	2.843 (5)	2.533 (5)	3.165 (5)
Sr1—O2^xii	2.656 (5)	2.433 (5)	2.906 (5)
Sr1—O2^xiii	2.843 (5)	2.533 (5)	3.165 (5)
Sr1—O2^xiv	2.656 (5)	2.433 (5)	2.906 (5)
Sr1—O5^xv	2.718 (4)	2.573 (4)	2.841 (4)
Sr1—O5^vii	2.718 (4)	2.573 (4)	2.841 (4)
Sr1—O5^iv	2.718 (4)	2.573 (4)	2.841 (4)
Sr1—O5^xvi	2.718 (4)	2.573 (4)	2.841 (4)
Ba—O1ⁱⁱ	2.940 (5)	2.643 (5)	3.299 (5)
Ba—O1^xvii	2.768 (5)	2.604 (5)	2.976 (5)
Ba—O1ⁱⁱⁱ	2.949 (5)	2.643 (5)	3.299 (5)
Ba—O1^xviii	2.772 (5)	2.604 (5)	2.976 (5)
Ba—O3	2.820 (5)	2.622 (6)	3.039 (6)
Ba—O3^ix	2.699 (5)	2.578 (5)	2.835 (6)
Ba—O4	3.025 (4)	2.657 (4)	3.366 (4)
Ba—O5	3.462 (5)	2.775 (5)	4.105 (5)
Ba—O5ⁱⁱ	3.167 (5)	2.550 (5)	3.804 (5)
Ba—O5ⁱⁱⁱ	3.188 (5)	2.549 (5)	3.805 (5)
Ba—O5^xix	3.430 (5)	2.774 (5)	4.105 (5)
Sr2—O1ⁱⁱ	2.940 (5)	2.643 (5)	3.299 (5)
Sr2—O1^xvii	2.768 (5)	2.604 (5)	2.976 (5)
Sr2—O1ⁱⁱⁱ	2.949 (5)	2.643 (5)	3.299 (5)
Sr2—O1^xviii	2.772 (5)	2.604 (5)	2.976 (5)
Sr2—O3	2.820 (5)	2.622 (6)	3.039 (6)
Sr2—O3^ix	2.699 (5)	2.578 (5)	2.835 (6)
Sr2—O4	3.025 (4)	2.657 (4)	3.366 (4)
Sr2—O5	3.462 (5)	2.775 (5)	4.105 (5)
Sr2—O5ⁱⁱ	3.167 (5)	2.550 (5)	3.804 (5)
Sr2—O5ⁱⁱⁱ	3.188 (5)	2.549 (5)	3.805 (5)
Sr2—O5^xix	3.430 (5)	2.774 (5)	4.105 (5)
Na1—O2	2.843 (5)	2.533 (5)	3.165 (5)
Na1—O2^ix	2.656 (5)	2.433 (5)	2.906 (5)
Na1—O2ⁱ	2.843 (5)	2.533 (5)	3.165 (5)
Na1—O2^x	2.656 (5)	2.433 (5)	2.906 (5)
Na1—O2^xi	2.843 (5)	2.533 (5)	3.165 (5)
Na1—O2^xii	2.656 (5)	2.433 (5)	2.906 (5)
Na1—O2^xiii	2.843 (5)	2.533 (5)	3.165 (5)
Na1—O2^xiv	2.656 (5)	2.433 (5)	2.906 (5)
Na1—O5^xv	2.718 (4)	2.573 (4)	2.841 (4)
Na1—O5^vii	2.718 (4)	2.573 (4)	2.841 (4)
Na1—O5^iv	2.718 (4)	2.573 (4)	2.841 (4)
Na1—O5^xvi	2.718 (4)	2.573 (4)	2.841 (4)
K—O1ⁱⁱ	2.940 (5)	2.643 (5)	3.299 (5)
K—O1^xvii	2.768 (5)	2.604 (5)	2.976 (5)
K—O1ⁱⁱⁱ	2.949 (5)	2.643 (5)	3.299 (5)
K—O1^xviii	2.772 (5)	2.604 (5)	2.976 (5)
K—O3	2.820 (5)	2.622 (6)	3.039 (6)
K—O3^ix	2.699 (5)	2.578 (5)	2.835 (6)
K—O4	3.025 (4)	2.657 (4)	3.366 (4)
K—O5	3.462 (5)	2.775 (5)	4.105 (5)
K—O5ⁱⁱ	3.167 (5)	2.550 (5)	3.804 (5)
K—O5ⁱⁱⁱ	3.188 (5)	2.549 (5)	3.805 (5)
K—O5^xix	3.430 (5)	2.774 (5)	4.105 (5)

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