Incommensurate crystallographic shear structure of BaxBi2 − 2xTi4 − xO11 − 4x (x = 0.275)

Michiue, Y.; Yamamoto, A.; Onoda, M.; Sato, A.; Akashi, T.; Yamane, H.; Goto, T.

doi:10.1107/S0108768105001655

Incommensurate crystallographic shear structure of Ba_xBi_2 − 2xTi_4 − xO_{11 − 4x} (x = 0.275)

Y. Michiue, A. Yamamoto, M. Onoda, A. Sato, T. Akashi, H. Yamane and T. Goto

The title compound generates diffraction patterns which are indexable within the framework of the higher-dimensional description of incommensurate structures. However, it is difficult to discriminate the main reflections from the satellite ones. This paper has clarified that the structure can be treated as a strongly modulated structure with sawtooth-like modulation functions and is classified as an incommensurate crystallographic shear (CS) structure. The structure consists of domains isostructural to β-Bi₂Ti₄O₁₁ and domain boundaries composed of TiO₆ octahedra. Ba and Bi ions are accommodated in the cavities between TiO₆ octahedra in the domain. Domain boundaries are aperiodically inserted, in contrast to the usual CS structures, forming an incommensurate structure.

Keywords: incommensurate structure; crystallographic shear structure; four-dimensional description; Farey tree.

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Supporting information

	Crystallographic Information File (CIF) https://doi.org/10.1107/S0108768105001655/sn5011sup1.cif Contains datablocks global, I
	Structure factor file (CIF format) https://doi.org/10.1107/S0108768105001655/sn5011sup2.hkl Contains datablock (I)
	Portable Document Format (PDF) file https://doi.org/10.1107/S0108768105001655/sn5011sup3.pdf Supplementary material

Computing details top

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_0.0504Bi_0.2661O_1.8165Ti_0.6835	F(000) = 218
M_r = 124.3	D_x = 6.085 (1) Mg m⁻³
Monoclinic, I2/m(α1γ)00†	Nb Kα radiation, λ = 0.7476 Å
q = 0.36693c*	Cell parameters from 4621 reflections
a = 10.6914 (3) Å	θ = 2.5–45°
b = 3.7963 (1) Å	µ = 38.91 mm⁻¹
c = 3.3457 (1) Å	T = 298 K
β = 92.625 (2)°	Prism, pale yellow
V = 135.65 (1) Å³	0.10 × 0.05 × 0.04 mm
Z = 4

† Symmetry operations: (1) x₁, x₂, x₃, x₄; (2) −x₁, x₂, −x₃, −x₄; (3) −x₁, −x₂, −x₃, −x₄; (4) x₁, −x₂, x₃, x₄; (5) 1/2+x₁, 1/2+x₂, 1/2+x₃, 1/2+x₄; (6) 1/2−x₁, 1/2+x₂, 1/2−x₃, 1/2−x₄; (7) 1/2−x₁, 1/2−x₂, 1/2−x₃, 1/2−x₄; (8) 1/2+x₁, 1/2−x₂, 1/2+x₃, 1/2+x₄.

Data collection top

Mac Science DIP320 diffractometer	925 reflections with I > 2σ(I)
Graphite monochromator	R_int = 0.033
ω scans	θ_max = 45°, θ_min = 2.5°
Absorption correction: empirical (using intensity measurements) ?	h = −15→15
T_min = 0.161, T_max = 0.274	k = −4→3
2389 measured reflections	l = −7→3
1059 independent reflections

Refinement top

Refinement on F	(Δ/σ)_max = 0.006
R[F² > 2σ(F²)] = 0.042	Δρ_max = 3.08 e Å⁻³
S = 1.85	Δρ_min = −2.56 e Å⁻³
925 reflections	Extinction correction: B-C type 1 Gaussian isotropic (Becker & Coppens, 1974)
81 parameters	Extinction coefficient: 0.002725
Weighting scheme based on measured s.u.'s w = 1/σ²(F)

Crystal data top

Ba_0.0504Bi_0.2661O_1.8165Ti_0.6835	β = 92.625 (2)°
M_r = 124.3	V = 135.65 (1) Å³
Monoclinic, I2/m(α1γ)00†	Z = 4
q = 0.36693c*	Nb Kα radiation, λ = 0.7476 Å
a = 10.6914 (3) Å	µ = 38.91 mm⁻¹
b = 3.7963 (1) Å	T = 298 K
c = 3.3457 (1) Å	0.10 × 0.05 × 0.04 mm

Data collection top

Mac Science DIP320 diffractometer	1059 independent reflections
Absorption correction: empirical (using intensity measurements) ?	925 reflections with I > 2σ(I)
T_min = 0.161, T_max = 0.274	R_int = 0.033
2389 measured reflections

Refinement top

R[F² > 2σ(F²)] = 0.042	81 parameters
S = 1.85	Δρ_max = 3.08 e Å⁻³
925 reflections	Δρ_min = −2.56 e Å⁻³

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

	x	y	z	U_iso*/U_eq	Occ. (<1)
Ba1	0.0822 (10)	0	0.689 (3)	0.0089 (15)*	0.1592
Bi1	0.1029 (14)	0	0.755 (4)	0.012 (3)	0.8408
Ti1	0.358 (2)	0	0.711 (7)	0.0059 (3)
O1	0.2102 (4)	0	0.8802 (14)	0.0092 (13)
O2	0.5	0	0.5	0.012 (4)
O3	0.589 (6)	0	0.760 (13)	0.0084 (16)

Atomic displacement parameters (Å²) top

	U¹¹	U²²	U³³	U¹²	U¹³	U²³
Bi1	0.051 (6)	−0.037 (7)	0.023 (4)	0	0.015 (3)	0
Ti1	0.0044 (5)	0.0075 (8)	0.0058 (4)	0	−0.0012 (3)	0
O1	0.0036 (15)	0.015 (3)	0.0085 (18)	0	−0.0008 (12)	0
O2	0.001 (3)	0.018 (8)	0.018 (6)	0	0.008 (4)	0
O3	0.010 (2)	0.012 (4)	0.0026 (18)	0	−0.0032 (15)	0

Bond lengths (Å) top

	Average	Minimum	Maximum
Ba1—O1ⁱ	3.07 (3)	2.96 (4)	3.23 (4)
Ba1—O1	2.47 (3)	1.98 (4)	2.80 (4)
Ba1—O1ⁱⁱ	3.58 (3)	3.29 (4)	3.95 (4)
Ba1—O1ⁱⁱⁱ	3.55 (3)	3.19 (4)	4.08 (4)
Ba1—O1^iv	3.16 (3)	3.11 (3)	3.22 (3)
Ba1—O1^v	2.49 (2)	2.396 (19)	2.67 (3)
Ba1—O1^vi	2.49 (2)	2.396 (19)	2.67 (3)
Ba1—O2^vii	3.136 (12)	2.79 (2)	3.50 (3)
Ba1—O2^viii	3.136 (12)	2.79 (2)	3.50 (3)
Ba1—O3^ix	2.57 (6)	2.48 (6)	2.75 (7)
Ba1—O3^x	2.57 (6)	2.48 (6)	2.75 (7)
Ba1—O3^v	2.89 (9)	2.72 (10)	3.08 (11)
Ba1—O3^vi	2.89 (9)	2.72 (10)	3.08 (11)
Bi1—O1ⁱ	3.15 (3)	2.99 (3)	3.32 (3)
Bi1—O1	2.12 (3)	1.98 (3)	2.17 (3)
Bi1—O1ⁱⁱ	3.33 (3)	3.21 (3)	3.53 (3)
Bi1—O1^iv	3.27 (3)	3.13 (3)	3.39 (3)
Bi1—O1^v	2.40 (2)	2.38 (2)	2.47 (2)
Bi1—O1^vi	2.40 (2)	2.38 (2)	2.47 (2)
Bi1—O2^vii	3.379 (17)	3.196 (17)	3.55 (2)
Bi1—O2^viii	3.379 (17)	3.196 (17)	3.55 (2)
Bi1—O3^ix	2.48 (6)	2.43 (5)	2.57 (7)
Bi1—O3^x	2.48 (6)	2.43 (5)	2.57 (7)
Bi1—O3^v	3.12 (10)	3.05 (11)	3.16 (11)
Bi1—O3^vi	3.12 (10)	3.05 (11)	3.16 (11)
Ti1—O1ⁱ	3.12 (6)	2.07 (9)	4.27 (5)
Ti1—O1	2.03 (6)	1.96 (6)	2.12 (6)
Ti1—O1^xi	4.73 (6)	3.70 (6)	5.97 (7)
Ti1—O1^xii	4.73 (6)	3.70 (6)	5.97 (7)
Ti1—O1^xiii	4.38 (5)	3.44 (5)	4.69 (5)
Ti1—O1^v	1.934 (12)	1.913 (7)	1.986 (16)
Ti1—O1^xiv	3.89 (5)	3.58 (5)	4.25 (7)
Ti1—O1^xv	4.38 (5)	3.44 (5)	4.69 (5)
Ti1—O1^vi	1.934 (12)	1.913 (7)	1.986 (16)
Ti1—O1^xvi	3.89 (5)	3.58 (5)	4.25 (7)
Ti1—O2	1.87 (6)	1.80 (5)	1.96 (9)
Ti1—O2ⁱⁱ	2.21 (5)	2.20 (5)	2.21 (5)
Ti1—O3	1.96 (14)	1.86 (14)	2.03 (15)
Ti1—O3^vii	3.70 (11)	3.59 (11)	3.83 (10)
Ti1—O3^ix	3.74 (11)	3.67 (12)	3.79 (12)
Ti1—O3^viii	3.70 (11)	3.59 (11)	3.83 (10)
Ti1—O3^x	3.74 (11)	3.67 (12)	3.79 (12)
Ti1—O3^xvii	1.87 (10)	1.81 (11)	1.92 (9)
Ti1—O3^xviii	1.89 (11)	1.76 (9)	2.06 (9)

Symmetry codes: (i) x₁, x₂, x₃−1, x₄; (ii) x₁, x₂, x₃+1, x₄; (iii) −x₁, −x₂, −x₃+1, −x₄; (iv) −x₁, −x₂, −x₃+2, −x₄; (v) −x₁+1/2, −x₂−1/2, −x₃+3/2, −x₁/2; (vi) −x₁+1/2, −x₂+1/2, −x₃+3/2, −x₁/2; (vii) x₁−1/2, x₂−1/2, x₃−1/2, x₁/2; (viii) x₁−1/2, x₂+1/2, x₃−1/2, x₁/2; (ix) x₁−1/2, x₂−1/2, x₃+1/2, x₁/2; (x) x₁−1/2, x₂+1/2, x₃+1/2, x₁/2; (xi) x₁+1/2, x₂−1/2, x₃+1/2, x₁/2; (xii) x₁+1/2, x₂+1/2, x₃+1/2, x₁/2; (xiii) −x₁+1/2, −x₂−1/2, −x₃+1/2, −x₁/2; (xiv) −x₁+1/2, −x₂−1/2, −x₃+5/2, −x₁/2; (xv) −x₁+1/2, −x₂+1/2, −x₃+1/2, −x₁/2; (xvi) −x₁+1/2, −x₂+1/2, −x₃+5/2, −x₁/2; (xvii) −x₁+1, −x₂, −x₃+1, −x₄; (xviii) −x₁+1, −x₂, −x₃+2, −x₄.

Experimental details

Crystal data
Chemical formula	Ba_0.0504Bi_0.2661O_1.8165Ti_0.6835
M_r	124.3
Crystal system, space group	Monoclinic, I2/m(α1γ)00†
Temperature (K)	298
Wave vectors	q = 0.36693c*
a, b, c (Å)	10.6914 (3), 3.7963 (1), 3.3457 (1)
β (°)	92.625 (2)
V (Å³)	135.65 (1)
Z	4
Radiation type	Nb Kα, λ = 0.7476 Å
µ (mm⁻¹)	38.91
Crystal size (mm)	0.10 × 0.05 × 0.04

Data collection
Diffractometer	Mac Science DIP320 diffractometer
Absorption correction	Empirical (using intensity measurements)
T_min, T_max	0.161, 0.274
No. of measured, independent and observed [I > 2σ(I)] reflections	2389, 1059, 925
R_int	0.033
(sin θ/λ)_max (Å⁻¹)	0.946

Refinement
R[F² > 2σ(F²)], wR(F²), S	0.042, ?, 1.85
No. of reflections	925
No. of parameters	81
No. of restraints	?
Δρ_max, Δρ_min (e Å⁻³)	3.08, −2.56

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

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Incommensurate crystallographic shear structure of Ba_xBi_2 − 2xTi_4 − xO_{11 − 4x} (x = 0.275)

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