Type II Bi1 − xWxO1.5 + 1.5x: a (3 + 3)-dimensional commensurate modulation that stabilizes the fast-ion conducting delta phase of bismuth oxide

Wind, J.; Auckett, J.E.; Withers, R.L.; Piltz, R.O.; Maljuk, A.; Ling, C.D.

doi:10.1107/S2052520615018351

Type II Bi_1 − xW_xO_{1.5 + 1.5x}: a (3 + 3)-dimensional commensurate modulation that stabilizes the fast-ion conducting delta phase of bismuth oxide

J. Wind, J. E. Auckett, R. L. Withers, R. O. Piltz, A. Maljuk and C. D. Ling

The Type II phase in the Bi_1 − xW_xO_{1.5 + 1.5x} system is shown to have a (3 + 3)-dimensional modulated δ-Bi₂O₃-related structure, in which the modulation vector [epsilon]

`locks in' to a commensurate value of 1/3. The structure was refined in a 3 × 3 × 3 supercell against single-crystal Laue neutron diffraction data. Ab initio calculations were used to test and optimize the local structure of the oxygen sublattice around a single mixed Bi/W site. The underlying crystal chemistry was shown to be essentially the same as for the recently refined (3 + 3)-dimensional modulated structure of Type II Bi_1 − xNb_xO_1.5 + x (Ling et al., 2013), based on a transition from fluorite-type to pyrochlore-type via the appearance of W₄O₁₈ `tetrahedra of octahedra' and chains of corner-sharing WO₆ octahedra along 〈110〉_F directions. The full range of occupancies on this mixed Bi/W site give a hypothetical solid-solution range bounded by Bi₂₃W₄O_46.5 (x = 0.148) and Bi₂₂W₅O₄₈ (x = 0.185), consistent with previous reports and with our own synthetic and analytical results.

Keywords: incommensurate; (3+3)-dimensional modulation; oxide ionic conduction; δ-Bi₂O₃; floating zone crystal growth.

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Supporting information

	Crystallographic Information File (CIF) https://doi.org/10.1107/S2052520615018351/xw5002sup1.cif Contains datablocks global, I
	Structure factor file (CIF format) https://doi.org/10.1107/S2052520615018351/xw5002Isup2.hkl Contains datablock I

CCDC reference: 1429003

Computing details top

(I) top

Crystal data top

Bi₂₃O_46.5W₄	F(000) = 10308
M_r = 6285.9	D_x = 9.073 Mg m⁻³
Cubic, F43m	Neutron radiation, λ = 1 Å
Hall symbol: F -4;2;3	µ = 0.004 mm⁻¹
a = 16.633 Å	T = 293 K
V = 4601.63 Å³	, yellow
Z = 4	0.5 mm (radius)

Data collection top

299 measured reflections	h = 2→20
299 independent reflections	k = 0→14
162 reflections with I > 3σ(I)	l = 0→12
θ_max = 38.5°, θ_min = 5.7°

Refinement top

Refinement on F	0 restraints
R[F² > 2σ(F²)] = 0.249	8 constraints
wR(F²) = 0.273	Weighting scheme based on measured s.u.'s w = 1/(σ²(F) + 0.0001F²)
S = 11.69	(Δ/σ)_max = 0.032
162 reflections	Extinction correction: B-C type 1 Gaussian isotropic (Becker & Coppens, 1974)
21 parameters	Absolute structure: 12 of Friedel pairs used in the refinement

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

	x	y	z	U_iso*/U_eq	Occ. (<1)
W1	0.669 (2)	0.831 (2)	0.831 (2)	0.020 (4)*
Bi1	0.0015 (11)	0.8372 (5)	0.8372 (5)	0.020 (4)*
Bi2	0.5	0	0.8356 (11)	0.020 (4)*
Bi3	0.3320 (9)	0.8320 (9)	0.8320 (9)	0.020 (4)*
Bi4	0.5	0.5	0	0.020 (4)*
O1	0.9113 (12)	0.9113 (12)	0.9113 (12)	0.006 (8)*
O2	0.0861 (18)	0.9139 (18)	0.9139 (18)	0.010 (10)*	0.75
O3	0.4166 (13)	0.9166 (13)	0.761 (2)	0.062 (10)*
O4	0.25	0.75	0.75	0.062 (10)*
O5	0.628 (3)	0.75	0.75	0.072 (10)*
O6	0.726 (3)	0.9142 (16)	0.9142 (16)	0.072 (10)*
O7	0.25	0.099 (4)	0.25	0.062 (10)*	0.75
O8	0.410 (2)	0.910 (2)	0.910 (2)	0.062 (10)*

Atomic displacement parameters (Å²) top

	U¹¹	U²²	U³³	U¹²	U¹³	U²³
?	?	?	?	?	?	?

Bond lengths (Å) top

W1—O5	2.03 (4)	Bi4—O2^xxv	2.48 (3)
W1—O5ⁱ	2.03 (4)	Bi4—O2^xxvi	2.48 (3)
W1—O5ⁱⁱ	2.03 (4)	Bi4—O2^xxvii	2.48 (3)
W1—O6	2.17 (5)	O1—O2^xxviii	2.91 (4)
W1—O6ⁱⁱⁱ	2.17 (5)	O1—O2^xxix	2.91 (4)
W1—O6ⁱⁱ	2.17 (5)	O1—O2^xxx	2.91 (4)
Bi1—O1^iv	2.30 (2)	O1—O6	3.08 (5)
Bi1—O2	2.29 (3)	O1—O6^xxxi	3.08 (5)
Bi1—O3^v	2.50 (3)	O1—O6^xxxii	3.08 (5)
Bi1—O3^vi	2.50 (3)	O2—O3^v	2.90 (5)
Bi1—O5^vii	2.97 (4)	O2—O3^xv	2.90 (5)
Bi1—O6^viii	2.67 (4)	O2—O3^vi	2.90 (5)
Bi1—O6^ix	2.67 (4)	O3—O6ⁱⁱ	2.82 (3)
Bi1—O7^x	2.62 (4)	O3—O6^xxxiii	2.82 (3)
Bi2—O3^xi	2.33 (3)	O3—O7^xvii	2.79 (2)
Bi2—O3^xii	2.33 (3)	O3—O7^xix	2.79 (2)
Bi2—O6^xiii	2.27 (3)	O3—O8	2.50 (5)
Bi2—O6^xiv	2.27 (3)	O4—O7^xxxiv	2.50 (7)
Bi2—O8^xi	2.45 (3)	O4—O7^xvii	2.50 (7)
Bi2—O8^xii	2.45 (3)	O4—O7^xxxv	2.50 (7)
Bi3—O3	2.32 (3)	O4—O7^xviii	2.50 (7)
Bi3—O3^xv	2.32 (3)	O4—O7^x	2.50 (7)
Bi3—O3^xvi	2.32 (3)	O4—O7^xix	2.50 (7)
Bi3—O4	2.363 (15)	O5—O5^xxxi	2.88 (5)
Bi3—O7^xvii	2.24 (4)	O5—O5ⁱ	2.88 (5)
Bi3—O7^xviii	2.24 (4)	O5—O5^xxxii	2.88 (5)
Bi3—O7^xix	2.24 (4)	O5—O5ⁱⁱ	2.88 (5)
Bi3—O8	2.26 (4)	O5—O6ⁱⁱⁱ	2.85 (3)
Bi4—O1^xx	2.55 (2)	O5—O6^xxxvi	2.85 (3)
Bi4—O1^xxi	2.55 (2)	O5—O6ⁱⁱ	2.85 (3)
Bi4—O1^xxii	2.55 (2)	O5—O6^xxxvii	2.85 (3)
Bi4—O1^xxiii	2.55 (2)	O6—O6ⁱⁱⁱ	3.31 (5)
Bi4—O2^xxiv	2.48 (3)	O6—O6ⁱⁱ	3.31 (5)

Symmetry codes: (i) z, −x+3/2, −y+3/2; (ii) −y+3/2, z, −x+3/2; (iii) −z+3/2, −x+3/2, y; (iv) x−1, y, z; (v) −x+1/2, y, −z+3/2; (vi) −y+1, −z+3/2, x+1/2; (vii) −x+1/2, −y+3/2, z; (viii) z−1, x, y; (ix) y−1, z, x; (x) y, z+1/2, x+1/2; (xi) x, y−1, z; (xii) −x+1, −y+1, z; (xiii) −y+3/2, z−1, −x+3/2; (xiv) y−1/2, −z+1, −x+3/2; (xv) z−1/2, x+1/2, y; (xvi) y−1/2, z, x+1/2; (xvii) −x+1/2, −y+1, z+1/2; (xviii) z, −x+1, −y+1; (xix) −y+1/2, z+1/2, −x+1; (xx) x−1/2, y−1/2, z−1; (xxi) −x+3/2, −y+3/2, z−1; (xxii) −x+3/2, y−1/2, −z+1; (xxiii) x−1/2, −y+3/2, −z+1; (xxiv) x+1/2, y−1/2, z−1; (xxv) −x+1/2, −y+3/2, z−1; (xxvi) −x+1/2, y−1/2, −z+1; (xxvii) x+1/2, −y+3/2, −z+1; (xxviii) x+1, y, z; (xxix) −x+1, −y+2, z; (xxx) −x+1, y, −z+2; (xxxi) z, x, y; (xxxii) y, z, x; (xxxiii) y−1/2, −z+2, −x+3/2; (xxxiv) x, y+1/2, z+1/2; (xxxv) z, x+1/2, y+1/2; (xxxvi) −z+3/2, x, −y+3/2; (xxxvii) −y+3/2, −z+3/2, x.

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