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Modulated structure of Lu4AlCu2B9O23 from low temperature single-crystal X-ray data

Authors:

Bolotina, Nadezhda; Plachinda, Paul; Belokoneva, Elena

Journal:

Acta Crystallographica, Section B 69 329-335 (2013)

DOI:

https://doi.org/10.1107/S2052519213014231

B-IncStrDB ID: 8012ELVkXA Entry date: 2013-07-23 Last revision: 2021-12-12

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Chemical data

Structural Formula Sum: Al1 B9 Cu2 Lu4 O23 [ Help ]

Formula weight: 1319.2 Da [ Help ]

Crystallographic data and experimental details

Crystal system: orthorhombic [ Help ]

Superspace group name: P21212(00γ)00s [ Help ]

Symmetry operations of the superspace group: [ Help ]

Operation code Operation in algebraic form
1 x1,x2,x3,x4
2 -x1,-x2,x3,x4+1/2
3 -x1+1/2,x2+1/2,-x3,-x4+1/2
4 x1+1/2,-x2+1/2,-x3,-x4

a: 12.591(1) Å [ Help ]

b: 12.591(1) Å [ Help ]

c: 4.7144(3) Å [ Help ]

α: 90 ° [ Help ]

β: 90 ° [ Help ]

γ: 90 ° [ Help ]

Volume: 747.413 Å3 [ Help ]

Modulation dimension: 1 [ Help ]

Measured independent wave vectors: [ Help ]

Wave vector id q_x q_y q_z
1 0.000000 0.000000 0.132000

Z: 2 [ Help ]

Cell measurement temperature: 110 K [ Help ]

μ: 29.12 mm-1 [ Help ]

Absorption correction type: gaussian [ Help ]

Absorption correction remarks: Jana2006 (Petricek, Dusek & Palatinus, 2000) [ Help ]

Minimum transmission factor: 0.0408 [ Help ]

Maximum transmission factor: 0.1349 [ Help ]

Refinement details

Total nb. of reflections: 6076 [ Help ]

Nb. of observed reflections: 3378 [ Help ]

Intense reflections threshold: I>3σ(I) [ Help ]

Refinement based on: F [ Help ]

R(obs): 0.0386 [ Help ]

wR(obs): 0.0500 [ Help ]

R(all): 0.0530 [ Help ]

wR(all): 0.0526 [ Help ]

S(all): 1.19 [ Help ]

S(obs): 1.53 [ Help ]

Nb. of reflections: 6076 [ Help ]

Nb. of parameters: 217 [ Help ]

Number of constraints: 9 [ Help ]

Weighting scheme: sigma [ Help ]

Weighting scheme remarks: w=1/(σ2(F)+0.0004F2) [ Help ]

Δ/σ(max): 0.0461 [ Help ]

Δ/σ(mean): 0.0091 [ Help ]

Δρ(max): 2.27 e_Å-3 [ Help ]

Δρ(min): -2.60 e_Å-3 [ Help ]

Extinction method: B-C type 1 Lorentzian isotropic (Becker & Coppens, 1974) [ Help ]

Extinction coefficient: 3400(120) [ Help ]

Absolute structure remarks: 2663 of Friedel pairs used in the refinement [ Help ]

Structural Information

Average Structure: [ Help ]

Atom site label Atom symbol x y z ADP type Uiso/equiv Symmetry multiplicity Occupancy Coords from (d)iffraction or (c)alculated Coords restraints or constraints Disordered cluster Disordered group
Lu Lu 0.65032(4) 0.35435(4) 0.00313(13) Uani 0.01138(17) 4 1 d ? ? ?
Lu' Lu 0.35243(4) 0.35148(4) -0.00254(13) Uani 0.01254(19) 4 1 d ? ? ?
Cu Cu 0.8807(3) 0.5713(2) -0.0292(10) Uiso 0.0115(2) 4 0.5 d ? ? ?
Cu' Cu 0.9158(3) 0.6093(3) -0.0270(8) Uiso 0.0115(2) 4 0.5 d ? ? ?
Al Al 0.5 0.5 0.4931(16) Uiso 0.0101(4) 2 1 d ? ? ?
B1 B 0.7158(10) 0.4979(10) 0.525(3) Uiso 0.0103(8) 4 1 d ? ? ?
B1' B 0.4970(11) 0.2845(8) 0.448(3) Uiso 0.0103(8) 4 1 d ? ? ?
B2 B 0.8511(9) 0.6453(10) 0.4656(15) Uiso 0.0118(11) 4 1 d ? ? ?
B3 B 0.8208(10) 0.3250(10) 0.4787(15) Uiso 0.0116(11) 4 1 d ? ? ?
B4 B 0 0.5 0.502(2) Uiso 0.0157(17) 2 1 d ? ? ?
O1 O 0.6929(8) 0.5024(8) 0.249(2) Uiso 0.0136(5) 4 1 d ? ? ?
O1' O 0.4994(9) 0.3068(8) 0.757(2) Uiso 0.0136(5) 4 1 d ? ? ?
O2 O 0.6159(8) 0.4982(7) 0.715(2) Uiso 0.0140(6) 4 1 d ? ? ?
O2' O 0.5048(7) 0.3856(7) 0.286(2) Uiso 0.0140(6) 4 1 d ? ? ?
O3 O 0.7663(7) 0.3998(7) 0.650(2) Uiso 0.0111(6) 4 1 d ? ? ?
O3' O 0.6038(6) 0.7678(7) 0.370(2) Uiso 0.0111(6) 4 1 d ? ? ?
O4 O 0.7763(7) 0.5924(7) 0.650(2) Uiso 0.0121(6) 4 1 d ? ? ?
O4' O 0.4088(7) 0.7785(7) 0.367(2) Uiso 0.0121(6) 4 1 d ? ? ?
O5 O 0.7995(7) 0.3024(7) 0.2108(9) Uiso 0.0096(7) 4 1 d ? ? ?
O6 O 0.9321(6) 0.5619(7) 0.3552(9) Uiso 0.0140(8) 4 1 d ? ? ?
O7 O 0.8088(7) 0.6856(7) 0.1982(9) Uiso 0.0130(9) 4 1 d ? ? ?
O8 O 0 0.5 0.7858(14) Uiso 0.0213(15) 2 1 d ? ? ?

ADP components: [ Help ]

Atom site label Atom site symbol U11 U22 U33 U12 U13 U23
Lu Lu 0.0128(3) 0.0113(3) 0.0100(2) 0.00030(12) 0.0024(2) 0.0000(2)
Lu' Lu 0.0135(4) 0.0110(3) 0.0131(2) -0.00014(12) 0.0013(2) -0.0028(2)

Fourier Wave Vectors (explicit: q_x,q_y,q_z or coefficients: q_1,q_2,...): [ Help ]

Wave vector code q_1
1 1

Table: [ Help ]

_jana_atom_site_occ_Fourier_absolute_site_label _jana_atom_site_occ_Fourier_absolute
Cu 0.5
Cu' 0.5

Definition of the occupation Fourier series: [ Help ]

Modulation code Atom site label Wave vector code
Cuo1 Cu 1
Cu'o1 Cu' 1

Occupation Fourier coefficients: [ Help ]

Modulation code Cosine coefficient Sine coefficient
Cuo1 0.287(11) 0.215(13)
Cu'o1 -0.287(11) -0.215(13)

Definition of the displacive (translational) Fourier series: [ Help ]

Modulation code Atom site label Displacement axis Wave vector code
Lux1 Lu x 1
Luy1 Lu y 1
Luz1 Lu z 1
Lu'x1 Lu' x 1
Lu'y1 Lu' y 1
Lu'z1 Lu' z 1
Cux1 Cu x 1
Cuy1 Cu y 1
Cuz1 Cu z 1
Cu'x1 Cu' x 1
Cu'y1 Cu' y 1
Cu'z1 Cu' z 1
Alx1 Al x 1
Aly1 Al y 1
Alz1 Al z 1
B1x1 B1 x 1
B1y1 B1 y 1
B1z1 B1 z 1
B1'x1 B1' x 1
B1'y1 B1' y 1
B1'z1 B1' z 1
B2x1 B2 x 1
B2y1 B2 y 1
B2z1 B2 z 1
B3x1 B3 x 1
B3y1 B3 y 1
B3z1 B3 z 1
B4x1 B4 x 1
B4y1 B4 y 1
B4z1 B4 z 1
O1x1 O1 x 1
O1y1 O1 y 1
O1z1 O1 z 1
O1'x1 O1' x 1
O1'y1 O1' y 1
O1'z1 O1' z 1
O2x1 O2 x 1
O2y1 O2 y 1
O2z1 O2 z 1
O2'x1 O2' x 1
O2'y1 O2' y 1
O2'z1 O2' z 1
O3x1 O3 x 1
O3y1 O3 y 1
O3z1 O3 z 1
O3'x1 O3' x 1
O3'y1 O3' y 1
O3'z1 O3' z 1
O4x1 O4 x 1
O4y1 O4 y 1
O4z1 O4 z 1
O4'x1 O4' x 1
O4'y1 O4' y 1
O4'z1 O4' z 1
O5x1 O5 x 1
O5y1 O5 y 1
O5z1 O5 z 1
O6x1 O6 x 1
O6y1 O6 y 1
O6z1 O6 z 1
O7x1 O7 x 1
O7y1 O7 y 1
O7z1 O7 z 1
O8x1 O8 x 1
O8y1 O8 y 1
O8z1 O8 z 1

Displacive (translational) Fourier coefficients: [ Help ]

Modulation code Cosine coefficient Sine coefficient
Lux1 0.00110(8) -0.00118(9)
Luy1 0.00132(5) -0.00230(6)
Luz1 -0.00091(17) 0.00118(19)
Lu'x1 -0.00091(11) -0.00084(8)
Lu'y1 0.00181(6) -0.00132(7)
Lu'z1 -0.00373(13) -0.00234(13)
Cux1 0.0012(3) 0.0024(3)
Cuy1 0.0035(3) -0.0011(3)
Cuz1 -0.0025(11) 0.0012(9)
Cu'x1 -0.0044(4) -0.0061(4)
Cu'y1 -0.0063(4) -0.0042(3)
Cu'z1 0.0000(10) 0.0033(9)
Alx1 0.0012(4) -0.0008(7)
Aly1 0.0007(5) -0.0022(3)
Alz1 0 0
B1x1 -0.0005(12) -0.0018(15)
B1y1 0.0001(12) -0.0020(10)
B1z1 0.007(5) -0.004(4)
B1'x1 0.0012(12) -0.0001(17)
B1'y1 -0.0009(11) -0.0004(9)
B1'z1 0.001(4) -0.002(3)
B2x1 0.0017(9) 0.0021(13)
B2y1 0.0011(10) -0.0003(9)
B2z1 0.001(3) -0.003(3)
B3x1 -0.0008(12) 0.0004(12)
B3y1 -0.0002(11) -0.0006(10)
B3z1 0.009(4) 0.005(3)
B4x1 -0.0007(18) -0.001(3)
B4y1 -0.001(2) -0.0009(13)
B4z1 0 0
O1x1 0.0032(7) 0.0012(8)
O1y1 0.0007(5) -0.0010(5)
O1z1 0.005(2) 0.004(2)
O1'x1 0.0015(7) -0.0007(7)
O1'y1 -0.0010(5) -0.0011(5)
O1'z1 0.0014(18) -0.0010(19)
O2x1 0.0016(8) -0.0004(8)
O2y1 0.0012(5) -0.0011(5)
O2z1 0.000(2) 0.001(2)
O2'x1 0.0021(6) -0.0013(6)
O2'y1 -0.0011(5) -0.0006(5)
O2'z1 0.000(2) -0.004(2)
O3x1 0.0014(5) -0.0014(6)
O3y1 -0.0002(5) -0.0027(5)
O3z1 0.003(2) -0.001(2)
O3'x1 0.0002(5) 0.0000(6)
O3'y1 0.0010(5) -0.0009(5)
O3'z1 -0.001(2) 0.001(2)
O4x1 0.0037(6) 0.0016(6)
O4y1 -0.0011(5) -0.0013(5)
O4z1 0.005(2) 0.002(2)
O4'x1 -0.0010(5) 0.0005(6)
O4'y1 -0.0037(5) -0.0005(5)
O4'z1 0.003(2) -0.003(2)
O5x1 0.0013(6) -0.0008(6)
O5y1 -0.0007(5) -0.0020(5)
O5z1 0.008(2) -0.007(2)
O6x1 0.0028(6) 0.0002(6)
O6y1 0.0032(5) -0.0005(5)
O6z1 0.002(2) -0.001(2)
O7x1 0.0008(6) -0.0002(6)
O7y1 -0.0009(5) -0.0013(5)
O7z1 0.004(2) -0.010(2)
O8x1 -0.0149(11) -0.0082(13)
O8y1 -0.0143(10) -0.0096(11)
O8z1 0 0