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Acta Cryst. (2018). C74, 269-273
https://doi.org/10.1107/S2053229618001596
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On the effect of Ga and In substitutions in the Ca11Bi10 and Yb11Bi10 bis­muthides crystallizing in the tetra­gonal Ho11Ge10 structure type

A. Ovchinnikov and S. Bobev
The Ga- and In-substituted bis­muthides Ca11GaxBi10–x, Ca11InxBi10–x, Yb11GaxBi10–x, and Yb11InxBi10–x (x < 2) can be readily synthesized employing molten Ga or In metals as fluxes. They crystallize in the tetra­gonal space group I4/mmm and adopt the Ho11Ge10 structure type (Pearson code tI84; Wyckoff sequence n2 m j h2 e2 d). The structural response to the substitution of Bi with smaller and electron-poorer In or Ga has been studied by single-crystal X-ray diffraction methods for the case of Ca11InxBi10–x [x = 1.73 (2); octabismuth undecacalcium diindium]. The refinements show that the In atoms substitute Bi only at the 8h site. The refined inter­atomic distances show an unconventional – for this structure type – bond-length distribution within the anionic sublattice. The latter can be viewed as consisting of isolated Bi3− anions and [In4Bi820−] clusters for the idealized Ca11In2Bi8 model. Formal electron counting and first-principle calculations show that the peculiar bonding in this compound drives the system toward an electron-precise state, thereby stabilizing the observed bond-length pattern.
Keywords: bis­muthide; electronic structure; computational chemistry; crystal structure; metal pnictides.
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Supporting information

cif

Crystallographic Information File (CIF) https://doi.org/10.1107/S2053229618001596/sk3679sup1.cif
Contains datablocks global, I

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S2053229618001596/sk3679Isup2.hkl
Contains datablock I

CCDC reference: 1820394

Computing details top

Data collection: SMART (Bruker, 2014); cell refinement: SAINT (Bruker, 2014); data reduction: SAINT (Bruker, 2014); program(s) used to solve structure: SHELXTL (Sheldrick, 2015a); program(s) used to refine structure: SHELXL2014 (Sheldrick, 2015b); molecular graphics: DIAMOND (Brandenburg, 2014); software used to prepare material for publication: publCIF (Westrip, 2010).

Octabismuth undecacalcium diindium top
Crystal data top
Bi8.27Ca11In1.73Dx = 5.913 Mg m3
Mr = 2368.25Mo Kα radiation, λ = 0.71073 Å
Tetragonal, I4/mmmCell parameters from 505 reflections
a = 12.3534 (19) Åθ = 4.7–21.1°
c = 17.433 (3) ŵ = 58.09 mm1
V = 2660.3 (9) Å3T = 200 K
Z = 4Block, black
F(000) = 39650.14 × 0.07 × 0.03 mm
Data collection top
Bruker APEX
diffractometer		746 reflections with I > 2σ(I)
Radiation source: sealed tubeRint = 0.131
phi and ω scansθmax = 28.1°, θmin = 2.0°
Absorption correction: multi-scan
(SADABS; Bruker, 2014)		h = 1616
Tmin = 0.294, Tmax = 0.492k = 1616
10649 measured reflectionsl = 2222
975 independent reflections
Refinement top
Refinement on F240 parameters
Least-squares matrix: full0 restraints
R[F2 > 2σ(F2)] = 0.038 w = 1/[σ2(Fo2) + 13.3889P]
where P = (Fo2 + 2Fc2)/3
wR(F2) = 0.078(Δ/σ)max < 0.001
S = 1.07Δρmax = 2.60 e Å3
975 reflectionsΔρmin = 2.19 e Å3
Special details top

Geometry. All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
Ca10.00000.2515 (3)0.3101 (2)0.0195 (8)
Ca20.00000.3401 (3)0.1022 (2)0.0145 (7)
Ca30.3333 (4)0.3333 (4)0.00000.0342 (15)
Ca40.00000.00000.1652 (4)0.0158 (15)
Bi10.20210 (4)0.20210 (4)0.16369 (4)0.01719 (19)
Bi20.15411 (7)0.50000.00000.0132 (2)
In30.12218 (10)0.12218 (10)0.00000.0208 (6)0.859 (9)
Bi30.12218 (10)0.12218 (10)0.00000.0208 (6)0.141 (9)
Bi40.00000.00000.36826 (8)0.0141 (3)
Bi50.00000.50000.25000.0110 (3)
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Ca10.027 (2)0.0147 (18)0.0164 (19)0.0000.0000.0009 (16)
Ca20.0127 (17)0.0164 (17)0.0142 (18)0.0000.0000.0016 (15)
Ca30.040 (2)0.040 (2)0.022 (3)0.028 (3)0.0000.000
Ca40.015 (2)0.015 (2)0.017 (4)0.0000.0000.000
Bi10.0147 (2)0.0147 (2)0.0223 (4)0.0034 (3)0.0003 (2)0.0003 (2)
Bi20.0119 (4)0.0139 (5)0.0139 (5)0.0000.0000.000
In30.0236 (7)0.0236 (7)0.0150 (10)0.0017 (7)0.0000.000
Bi30.0236 (7)0.0236 (7)0.0150 (10)0.0017 (7)0.0000.000
Bi40.0129 (4)0.0129 (4)0.0166 (7)0.0000.0000.000
Bi50.0114 (4)0.0114 (4)0.0104 (7)0.0000.0000.000
Geometric parameters (Å, º) top
Ca1—Bi53.244 (4)Ca4—In3xv3.585 (6)
Ca1—Bi43.268 (4)Ca4—Bi3ii3.585 (6)
Ca1—Bi2i3.509 (4)Ca4—Bi3xvi3.585 (6)
Ca1—Bi13.622 (3)Ca4—In3ii3.585 (6)
Ca1—Bi1ii3.623 (3)Ca4—In3xvi3.585 (6)
Ca1—Bi1iii3.7523 (11)Bi1—In33.1768 (11)
Ca1—Bi1iv3.7523 (11)Bi1—Ca2ix3.208 (2)
Ca1—Ca23.787 (5)Bi1—Bi1iii3.4433 (14)
Ca1—Ca2i3.958 (4)Bi1—Ca1ix3.623 (3)
Ca1—Ca2v3.958 (4)Bi1—Ca1i3.7523 (9)
Ca1—Ca44.004 (6)Bi1—Ca1iii3.7523 (11)
Ca1—Ca3iii4.037 (3)Bi2—Ca3xvii3.0234 (7)
Ca2—Bi1ii3.208 (2)Bi2—Ca2vii3.271 (3)
Ca2—Bi13.208 (2)Bi2—Ca2viii3.271 (3)
Ca2—Bi53.247 (3)Bi2—Ca2vi3.271 (3)
Ca2—Bi23.271 (3)Bi2—Ca1i3.509 (4)
Ca2—Bi2vi3.271 (3)Bi2—Ca1xi3.509 (4)
Ca2—Ca2vii3.562 (7)In3—Bi3ii3.019 (2)
Ca2—In33.563 (3)In3—Bi3xvi3.019 (2)
Ca2—Bi3ii3.563 (3)In3—In3ii3.019 (2)
Ca2—In3ii3.563 (3)In3—In3xvi3.019 (2)
Ca2—Ca2viii3.951 (7)In3—Bi1vii3.1768 (11)
Ca3—Bi2ix3.0234 (7)In3—Ca2ix3.563 (3)
Ca3—Bi23.0234 (7)In3—Ca2xviii3.563 (3)
Ca3—Bi1vii3.660 (5)In3—Ca2vii3.563 (3)
Ca3—Bi13.660 (5)In3—Ca4xv3.585 (6)
Ca3—In33.689 (7)Bi4—Ca1xix3.268 (4)
Ca3—Bi4iii3.709 (6)Bi4—Ca1xiii3.268 (4)
Ca3—Bi4x3.709 (6)Bi4—Ca1ix3.268 (4)
Ca3—Ca1i4.036 (3)Bi4—Ca3iii3.709 (6)
Ca3—Ca1iii4.036 (3)Bi4—Ca3xx3.709 (6)
Ca3—Ca1xi4.036 (3)Bi4—Ca3iv3.709 (6)
Ca3—Ca1xii4.036 (3)Bi4—Ca3xxi3.709 (6)
Ca4—Bi13.5308 (7)Bi5—Ca1v3.244 (4)
Ca4—Bi1xiii3.5309 (7)Bi5—Ca1viii3.244 (4)
Ca4—Bi1xiv3.5309 (7)Bi5—Ca1i3.244 (4)
Ca4—Bi1ii3.5309 (7)Bi5—Ca2i3.247 (3)
Ca4—Bi43.539 (7)Bi5—Ca2v3.247 (3)
Ca4—Bi3xv3.585 (6)Bi5—Ca2viii3.247 (3)
Bi5—Ca1—Bi4179.21 (13)Bi3xv—Ca4—In3ii49.8
Bi5—Ca1—Bi2i89.45 (9)In3xv—Ca4—In3ii49.79 (9)
Bi4—Ca1—Bi2i91.34 (9)Bi3ii—Ca4—In3ii0.0
Bi5—Ca1—Bi186.08 (7)Bi3xvi—Ca4—In3ii73.1
Bi4—Ca1—Bi193.35 (8)Bi1—Ca4—In3xvi89.65 (9)
Bi2i—Ca1—Bi1136.11 (4)Bi1xiii—Ca4—In3xvi89.65 (9)
Bi5—Ca1—Bi1ii86.08 (7)Bi1xiv—Ca4—In3xvi53.02 (5)
Bi4—Ca1—Bi1ii93.35 (8)Bi1ii—Ca4—In3xvi126.10 (18)
Bi2i—Ca1—Bi1ii136.11 (4)Bi4—Ca4—In3xvi143.46 (7)
Bi1—Ca1—Bi1ii87.13 (8)Bi3xv—Ca4—In3xvi49.8
Bi5—Ca1—Bi1iii83.96 (5)In3xv—Ca4—In3xvi49.79 (9)
Bi4—Ca1—Bi1iii96.17 (6)Bi3ii—Ca4—In3xvi73.1
Bi2i—Ca1—Bi1iii80.47 (6)Bi3xvi—Ca4—In3xvi0.0
Bi1—Ca1—Bi1iii55.63 (3)In3ii—Ca4—In3xvi73.07 (14)
Bi1ii—Ca1—Bi1iii141.94 (10)In3—Bi1—Ca267.85 (6)
Bi5—Ca1—Bi1iv83.96 (5)In3—Bi1—Ca2ix67.85 (6)
Bi4—Ca1—Bi1iv96.17 (6)Ca2—Bi1—Ca2ix135.68 (13)
Bi2i—Ca1—Bi1iv80.48 (6)In3—Bi1—Bi1iii176.99 (4)
Bi1—Ca1—Bi1iv141.94 (10)Ca2—Bi1—Bi1iii112.15 (6)
Bi1ii—Ca1—Bi1iv55.63 (3)Ca2ix—Bi1—Bi1iii112.15 (6)
Bi1iii—Ca1—Bi1iv157.48 (11)In3—Bi1—Ca464.37 (12)
Bi5—Ca1—Ca254.35 (8)Ca2—Bi1—Ca480.10 (7)
Bi4—Ca1—Ca2124.86 (12)Ca2ix—Bi1—Ca480.10 (7)
Bi2i—Ca1—Ca2143.79 (12)Bi1iii—Bi1—Ca4118.64 (12)
Bi1—Ca1—Ca251.25 (5)In3—Bi1—Ca1118.11 (5)
Bi1ii—Ca1—Ca251.25 (5)Ca2—Bi1—Ca167.03 (8)
Bi1iii—Ca1—Ca294.15 (6)Ca2ix—Bi1—Ca1137.14 (8)
Bi1iv—Ca1—Ca294.15 (6)Bi1iii—Bi1—Ca164.09 (5)
Bi5—Ca1—Ca2i52.47 (6)Ca4—Bi1—Ca168.06 (10)
Bi4—Ca1—Ca2i128.14 (10)In3—Bi1—Ca1ix118.11 (5)
Bi2i—Ca1—Ca2i51.53 (7)Ca2—Bi1—Ca1ix137.14 (8)
Bi1—Ca1—Ca2i93.38 (7)Ca2ix—Bi1—Ca1ix67.03 (8)
Bi1ii—Ca1—Ca2i138.32 (11)Bi1iii—Bi1—Ca1ix64.09 (4)
Bi1iii—Ca1—Ca2i49.08 (5)Ca4—Bi1—Ca1ix68.06 (10)
Bi1iv—Ca1—Ca2i108.91 (9)Ca1—Bi1—Ca1ix74.67 (11)
Ca2—Ca1—Ca2i98.38 (10)In3—Bi1—Ca364.85 (9)
Bi5—Ca1—Ca2v52.47 (6)Ca2—Bi1—Ca381.29 (6)
Bi4—Ca1—Ca2v128.14 (10)Ca2ix—Bi1—Ca381.29 (6)
Bi2i—Ca1—Ca2v51.53 (7)Bi1iii—Bi1—Ca3112.14 (9)
Bi1—Ca1—Ca2v138.32 (11)Ca4—Bi1—Ca3129.22 (15)
Bi1ii—Ca1—Ca2v93.38 (7)Ca1—Bi1—Ca3141.26 (6)
Bi1iii—Ca1—Ca2v108.91 (9)Ca1ix—Bi1—Ca3141.26 (6)
Bi1iv—Ca1—Ca2v49.08 (5)In3—Bi1—Ca1i117.48 (6)
Ca2—Ca1—Ca2v98.38 (10)Ca2—Bi1—Ca1i68.80 (8)
Ca2i—Ca1—Ca2v59.88 (10)Ca2ix—Bi1—Ca1i136.28 (7)
Bi5—Ca1—Ca4122.04 (13)Bi1iii—Bi1—Ca1i60.27 (6)
Bi4—Ca1—Ca457.17 (10)Ca4—Bi1—Ca1i143.18 (6)
Bi2i—Ca1—Ca4148.52 (13)Ca1—Bi1—Ca1i81.63 (10)
Bi1—Ca1—Ca454.88 (7)Ca1ix—Bi1—Ca1i124.37 (3)
Bi1ii—Ca1—Ca454.88 (7)Ca3—Bi1—Ca1i65.97 (9)
Bi1iii—Ca1—Ca4101.26 (6)In3—Bi1—Ca1iii117.48 (6)
Bi1iv—Ca1—Ca4101.26 (6)Ca2—Bi1—Ca1iii136.29 (7)
Ca2—Ca1—Ca467.69 (11)Ca2ix—Bi1—Ca1iii68.80 (8)
Ca2i—Ca1—Ca4147.73 (7)Bi1iii—Bi1—Ca1iii60.27 (6)
Ca2v—Ca1—Ca4147.73 (7)Ca4—Bi1—Ca1iii143.18 (6)
Bi5—Ca1—Ca3iii120.70 (12)Ca1—Bi1—Ca1iii124.37 (3)
Bi4—Ca1—Ca3iii59.93 (11)Ca1ix—Bi1—Ca1iii81.62 (10)
Bi2i—Ca1—Ca3iii46.59 (5)Ca3—Bi1—Ca1iii65.97 (9)
Bi1—Ca1—Ca3iii100.52 (5)Ca1i—Bi1—Ca1iii71.67 (11)
Bi1ii—Ca1—Ca3iii152.34 (14)Ca3xvii—Bi2—Ca385.9 (3)
Bi1iii—Ca1—Ca3iii55.92 (9)Ca3xvii—Bi2—Ca2vii146.88 (6)
Bi1iv—Ca1—Ca3iii116.12 (11)Ca3—Bi2—Ca2vii90.85 (12)
Ca2—Ca1—Ca3iii149.32 (8)Ca3xvii—Bi2—Ca2viii90.85 (12)
Ca2i—Ca1—Ca3iii68.28 (11)Ca3—Bi2—Ca2viii146.88 (6)
Ca2v—Ca1—Ca3iii98.00 (10)Ca2vii—Bi2—Ca2viii108.81 (8)
Ca4—Ca1—Ca3iii108.41 (11)Ca3xvii—Bi2—Ca2vi90.85 (12)
Bi1ii—Ca2—Bi1102.21 (10)Ca3—Bi2—Ca2vi146.88 (6)
Bi1ii—Ca2—Bi593.32 (8)Ca2vii—Bi2—Ca2vi74.31 (11)
Bi1—Ca2—Bi593.32 (8)Ca2viii—Bi2—Ca2vi65.98 (11)
Bi1ii—Ca2—Bi2162.95 (9)Ca3xvii—Bi2—Ca2146.88 (6)
Bi1—Ca2—Bi292.87 (2)Ca3—Bi2—Ca290.85 (12)
Bi5—Ca2—Bi293.71 (8)Ca2vii—Bi2—Ca265.98 (11)
Bi1ii—Ca2—Bi2vi92.87 (3)Ca2viii—Bi2—Ca274.31 (11)
Bi1—Ca2—Bi2vi162.95 (9)Ca2vi—Bi2—Ca2108.81 (8)
Bi5—Ca2—Bi2vi93.71 (8)Ca3xvii—Bi2—Ca1i75.92 (5)
Bi2—Ca2—Bi2vi71.19 (8)Ca3—Bi2—Ca1i75.92 (5)
Bi1ii—Ca2—Ca2vii109.54 (6)Ca2vii—Bi2—Ca1i134.99 (7)
Bi1—Ca2—Ca2vii109.54 (6)Ca2viii—Bi2—Ca1i71.33 (7)
Bi5—Ca2—Ca2vii142.53 (6)Ca2vi—Bi2—Ca1i134.99 (7)
Bi2—Ca2—Ca2vii57.01 (6)Ca2—Bi2—Ca1i71.33 (7)
Bi2vi—Ca2—Ca2vii57.01 (6)Ca3xvii—Bi2—Ca1xi75.92 (5)
Bi1ii—Ca2—In395.47 (9)Ca3—Bi2—Ca1xi75.92 (5)
Bi1—Ca2—In355.66 (4)Ca2vii—Bi2—Ca1xi71.33 (7)
Bi5—Ca2—In3148.90 (7)Ca2viii—Bi2—Ca1xi134.99 (7)
Bi2—Ca2—In386.42 (6)Ca2vi—Bi2—Ca1xi71.33 (7)
Bi2vi—Ca2—In3115.51 (10)Ca2—Bi2—Ca1xi134.99 (7)
Ca2vii—Ca2—In360.02 (6)Ca1i—Bi2—Ca1xi141.19 (12)
Bi1ii—Ca2—Bi3ii55.66 (4)Bi3ii—In3—Bi3xvi90.0
Bi1—Ca2—Bi3ii95.47 (9)Bi3ii—In3—In3ii0.0
Bi5—Ca2—Bi3ii148.90 (7)Bi3xvi—In3—In3ii90.0
Bi2—Ca2—Bi3ii115.51 (10)Bi3ii—In3—In3xvi90.0
Bi2vi—Ca2—Bi3ii86.42 (6)Bi3xvi—In3—In3xvi0.0
Ca2vii—Ca2—Bi3ii60.02 (6)In3ii—In3—In3xvi90.0
In3—Ca2—Bi3ii50.1Bi3ii—In3—Bi1vii108.11 (2)
Bi1ii—Ca2—In3ii55.66 (4)Bi3xvi—In3—Bi1vii108.11 (2)
Bi1—Ca2—In3ii95.47 (9)In3ii—In3—Bi1vii108.11 (2)
Bi5—Ca2—In3ii148.90 (7)In3xvi—In3—Bi1vii108.11 (2)
Bi2—Ca2—In3ii115.51 (10)Bi3ii—In3—Bi1108.11 (2)
Bi2vi—Ca2—In3ii86.42 (6)Bi3xvi—In3—Bi1108.11 (2)
Ca2vii—Ca2—In3ii60.02 (6)In3ii—In3—Bi1108.11 (2)
In3—Ca2—In3ii50.12 (7)In3xvi—In3—Bi1108.11 (2)
Bi3ii—Ca2—In3ii0.0Bi1vii—In3—Bi1127.85 (6)
Bi1ii—Ca2—Ca161.72 (6)Bi3ii—In3—Ca264.94 (3)
Bi1—Ca2—Ca161.72 (6)Bi3xvi—In3—Ca2139.07 (5)
Bi5—Ca2—Ca154.26 (8)In3ii—In3—Ca264.94 (3)
Bi2—Ca2—Ca1134.09 (8)In3xvi—In3—Ca2139.07 (5)
Bi2vi—Ca2—Ca1134.09 (8)Bi1vii—In3—Ca2110.23 (6)
Ca2vii—Ca2—Ca1163.20 (7)Bi1—In3—Ca256.49 (4)
In3—Ca2—Ca1105.08 (9)Bi3ii—In3—Ca2ix139.07 (5)
Bi3ii—Ca2—Ca1105.08 (9)Bi3xvi—In3—Ca2ix64.94 (3)
In3ii—Ca2—Ca1105.08 (9)In3ii—In3—Ca2ix139.07 (5)
Bi1ii—Ca2—Ca2viii122.10 (5)In3xvi—In3—Ca2ix64.94 (3)
Bi1—Ca2—Ca2viii122.10 (5)Bi1vii—In3—Ca2ix110.23 (6)
Bi5—Ca2—Ca2viii52.53 (6)Bi1—In3—Ca2ix56.49 (4)
Bi2—Ca2—Ca2viii52.85 (5)Ca2—In3—Ca2ix112.97 (9)
Bi2vi—Ca2—Ca2viii52.85 (5)Bi3ii—In3—Ca2xviii139.07 (5)
Ca2vii—Ca2—Ca2viii90.0Bi3xvi—In3—Ca2xviii64.94 (3)
In3—Ca2—Ca2viii139.07 (5)In3ii—In3—Ca2xviii139.07 (5)
Bi3ii—Ca2—Ca2viii139.07 (5)In3xvi—In3—Ca2xviii64.94 (3)
In3ii—Ca2—Ca2viii139.07 (5)Bi1vii—In3—Ca2xviii56.49 (4)
Ca1—Ca2—Ca2viii106.80 (7)Bi1—In3—Ca2xviii110.23 (6)
Bi2ix—Ca3—Bi2175.9 (3)Ca2—In3—Ca2xviii152.85 (8)
Bi2ix—Ca3—Bi1vii88.70 (9)Ca2ix—In3—Ca2xviii59.97 (11)
Bi2—Ca3—Bi1vii88.70 (9)Bi3ii—In3—Ca2vii64.94 (3)
Bi2ix—Ca3—Bi188.70 (9)Bi3xvi—In3—Ca2vii139.07 (5)
Bi2—Ca3—Bi188.70 (9)In3ii—In3—Ca2vii64.94 (3)
Bi1vii—Ca3—Bi1102.45 (18)In3xvi—In3—Ca2vii139.07 (5)
Bi2ix—Ca3—In387.93 (14)Bi1vii—In3—Ca2vii56.49 (4)
Bi2—Ca3—In387.93 (14)Bi1—In3—Ca2vii110.23 (6)
Bi1vii—Ca3—In351.22 (9)Ca2—In3—Ca2vii59.97 (11)
Bi1—Ca3—In351.22 (9)Ca2ix—In3—Ca2vii152.85 (8)
Bi2ix—Ca3—Bi4iii91.63 (11)Ca2xviii—In3—Ca2vii112.97 (9)
Bi2—Ca3—Bi4iii91.63 (11)Bi3ii—In3—Ca465.10 (4)
Bi1vii—Ca3—Bi4iii167.03 (16)Bi3xvi—In3—Ca465.10 (4)
Bi1—Ca3—Bi4iii90.52 (3)In3ii—In3—Ca465.10 (4)
In3—Ca3—Bi4iii141.74 (7)In3xvi—In3—Ca465.10 (4)
Bi2ix—Ca3—Bi4x91.63 (11)Bi1vii—In3—Ca4169.54 (8)
Bi2—Ca3—Bi4x91.63 (11)Bi1—In3—Ca462.61 (7)
Bi1vii—Ca3—Bi4x90.52 (3)Ca2—In3—Ca474.82 (6)
Bi1—Ca3—Bi4x167.03 (16)Ca2ix—In3—Ca474.82 (6)
In3—Ca3—Bi4x141.74 (7)Ca2xviii—In3—Ca4122.77 (4)
Bi4iii—Ca3—Bi4x76.52 (14)Ca2vii—In3—Ca4122.77 (4)
Bi2ix—Ca3—Ca1i123.39 (5)Bi3ii—In3—Ca4xv65.10 (4)
Bi2—Ca3—Ca1i57.49 (5)Bi3xvi—In3—Ca4xv65.10 (4)
Bi1vii—Ca3—Ca1i138.61 (14)In3ii—In3—Ca4xv65.10 (4)
Bi1—Ca3—Ca1i58.11 (4)In3xvi—In3—Ca4xv65.10 (4)
In3—Ca3—Ca1i100.21 (11)Bi1vii—In3—Ca4xv62.61 (7)
Bi4iii—Ca3—Ca1i49.69 (7)Bi1—In3—Ca4xv169.54 (8)
Bi4x—Ca3—Ca1i111.63 (15)Ca2—In3—Ca4xv122.77 (4)
Bi2ix—Ca3—Ca1iii57.49 (5)Ca2ix—In3—Ca4xv122.77 (4)
Bi2—Ca3—Ca1iii123.39 (5)Ca2xviii—In3—Ca4xv74.82 (6)
Bi1vii—Ca3—Ca1iii138.61 (14)Ca2vii—In3—Ca4xv74.82 (6)
Bi1—Ca3—Ca1iii58.11 (4)Ca4—In3—Ca4xv106.93 (14)
In3—Ca3—Ca1iii100.21 (11)Ca1—Bi4—Ca1xix84.48 (4)
Bi4iii—Ca3—Ca1iii49.69 (7)Ca1—Bi4—Ca1xiii143.87 (14)
Bi4x—Ca3—Ca1iii111.63 (15)Ca1xix—Bi4—Ca1xiii84.48 (4)
Ca1i—Ca3—Ca1iii65.95 (9)Ca1—Bi4—Ca1ix84.48 (4)
Bi2ix—Ca3—Ca1xi123.39 (5)Ca1xix—Bi4—Ca1ix143.87 (14)
Bi2—Ca3—Ca1xi57.49 (5)Ca1xiii—Bi4—Ca1ix84.48 (4)
Bi1vii—Ca3—Ca1xi58.11 (4)Ca1—Bi4—Ca471.93 (7)
Bi1—Ca3—Ca1xi138.61 (14)Ca1xix—Bi4—Ca471.94 (7)
In3—Ca3—Ca1xi100.21 (11)Ca1xiii—Bi4—Ca471.94 (7)
Bi4iii—Ca3—Ca1xi111.63 (15)Ca1ix—Bi4—Ca471.94 (7)
Bi4x—Ca3—Ca1xi49.69 (7)Ca1—Bi4—Ca3iii70.38 (7)
Ca1i—Ca3—Ca1xi110.17 (9)Ca1xix—Bi4—Ca3iii136.04 (5)
Ca1iii—Ca3—Ca1xi159.6 (2)Ca1xiii—Bi4—Ca3iii136.04 (5)
Bi2ix—Ca3—Ca1xii57.49 (5)Ca1ix—Bi4—Ca3iii70.38 (7)
Bi2—Ca3—Ca1xii123.39 (5)Ca4—Bi4—Ca3iii128.26 (7)
Bi1vii—Ca3—Ca1xii58.11 (4)Ca1—Bi4—Ca3xx136.04 (5)
Bi1—Ca3—Ca1xii138.61 (14)Ca1xix—Bi4—Ca3xx136.04 (5)
In3—Ca3—Ca1xii100.21 (11)Ca1xiii—Bi4—Ca3xx70.38 (7)
Bi4iii—Ca3—Ca1xii111.63 (15)Ca1ix—Bi4—Ca3xx70.38 (7)
Bi4x—Ca3—Ca1xii49.69 (7)Ca4—Bi4—Ca3xx128.26 (7)
Ca1i—Ca3—Ca1xii159.6 (2)Ca3iii—Bi4—Ca3xx67.45 (7)
Ca1iii—Ca3—Ca1xii110.17 (9)Ca1—Bi4—Ca3iv70.38 (7)
Ca1xi—Ca3—Ca1xii65.95 (9)Ca1xix—Bi4—Ca3iv70.38 (7)
Bi1—Ca4—Bi1xiii179.1 (2)Ca1xiii—Bi4—Ca3iv136.04 (5)
Bi1—Ca4—Bi1xiv89.997 (9)Ca1ix—Bi4—Ca3iv136.04 (5)
Bi1xiii—Ca4—Bi1xiv89.997 (9)Ca4—Bi4—Ca3iv128.26 (7)
Bi1—Ca4—Bi1ii89.997 (9)Ca3iii—Bi4—Ca3iv67.45 (7)
Bi1xiii—Ca4—Bi1ii89.997 (9)Ca3xx—Bi4—Ca3iv103.48 (14)
Bi1xiv—Ca4—Bi1ii179.1 (2)Ca1—Bi4—Ca3xxi136.04 (5)
Bi1—Ca4—Bi490.44 (12)Ca1xix—Bi4—Ca3xxi70.38 (7)
Bi1xiii—Ca4—Bi490.44 (12)Ca1xiii—Bi4—Ca3xxi70.38 (7)
Bi1xiv—Ca4—Bi490.44 (12)Ca1ix—Bi4—Ca3xxi136.04 (5)
Bi1ii—Ca4—Bi490.44 (12)Ca4—Bi4—Ca3xxi128.26 (7)
Bi1—Ca4—Bi3xv126.10 (18)Ca3iii—Bi4—Ca3xxi103.48 (14)
Bi1xiii—Ca4—Bi3xv53.02 (5)Ca3xx—Bi4—Ca3xxi67.45 (7)
Bi1xiv—Ca4—Bi3xv89.65 (9)Ca3iv—Bi4—Ca3xxi67.45 (7)
Bi1ii—Ca4—Bi3xv89.65 (9)Ca1v—Bi5—Ca1viii95.99 (4)
Bi4—Ca4—Bi3xv143.46 (7)Ca1v—Bi5—Ca1i142.29 (13)
Bi1—Ca4—In3xv126.10 (18)Ca1viii—Bi5—Ca1i95.99 (4)
Bi1xiii—Ca4—In3xv53.02 (5)Ca1v—Bi5—Ca195.99 (4)
Bi1xiv—Ca4—In3xv89.65 (9)Ca1viii—Bi5—Ca1142.29 (13)
Bi1ii—Ca4—In3xv89.65 (9)Ca1i—Bi5—Ca195.99 (4)
Bi4—Ca4—In3xv143.46 (7)Ca1v—Bi5—Ca275.14 (5)
Bi3xv—Ca4—In3xv0.0Ca1viii—Bi5—Ca2146.32 (9)
Bi1—Ca4—Bi3ii89.65 (9)Ca1i—Bi5—Ca275.14 (5)
Bi1xiii—Ca4—Bi3ii89.65 (9)Ca1—Bi5—Ca271.39 (9)
Bi1xiv—Ca4—Bi3ii126.10 (18)Ca1v—Bi5—Ca2i146.32 (9)
Bi1ii—Ca4—Bi3ii53.02 (5)Ca1viii—Bi5—Ca2i75.14 (5)
Bi4—Ca4—Bi3ii143.46 (7)Ca1i—Bi5—Ca2i71.39 (9)
Bi3xv—Ca4—Bi3ii49.79 (9)Ca1—Bi5—Ca2i75.14 (5)
In3xv—Ca4—Bi3ii49.79 (9)Ca2—Bi5—Ca2i129.05 (8)
Bi1—Ca4—Bi3xvi89.65 (9)Ca1v—Bi5—Ca2v71.39 (9)
Bi1xiii—Ca4—Bi3xvi89.65 (9)Ca1viii—Bi5—Ca2v75.14 (5)
Bi1xiv—Ca4—Bi3xvi53.02 (5)Ca1i—Bi5—Ca2v146.32 (9)
Bi1ii—Ca4—Bi3xvi126.10 (18)Ca1—Bi5—Ca2v75.14 (5)
Bi4—Ca4—Bi3xvi143.46 (7)Ca2—Bi5—Ca2v129.05 (8)
Bi3xv—Ca4—Bi3xvi49.79 (9)Ca2i—Bi5—Ca2v74.93 (12)
In3xv—Ca4—Bi3xvi49.79 (9)Ca1v—Bi5—Ca2viii75.14 (5)
Bi3ii—Ca4—Bi3xvi73.07 (14)Ca1viii—Bi5—Ca2viii71.39 (9)
Bi1—Ca4—In3ii89.65 (9)Ca1i—Bi5—Ca2viii75.14 (5)
Bi1xiii—Ca4—In3ii89.65 (9)Ca1—Bi5—Ca2viii146.32 (9)
Bi1xiv—Ca4—In3ii126.10 (18)Ca2—Bi5—Ca2viii74.93 (12)
Bi1ii—Ca4—In3ii53.02 (5)Ca2i—Bi5—Ca2viii129.05 (8)
Bi4—Ca4—In3ii143.46 (7)Ca2v—Bi5—Ca2viii129.05 (8)
Symmetry codes: (i) y+1/2, x+1/2, z+1/2; (ii) x, y, z; (iii) x+1/2, y+1/2, z+1/2; (iv) x1/2, y+1/2, z+1/2; (v) y1/2, x+1/2, z+1/2; (vi) x, y+1, z; (vii) x, y, z; (viii) x, y+1, z; (ix) y, x, z; (x) x+1/2, y+1/2, z1/2; (xi) y+1/2, x+1/2, z1/2; (xii) x+1/2, y+1/2, z1/2; (xiii) x, y, z; (xiv) x, y, z; (xv) x, y, z; (xvi) x, y, z; (xvii) x, y+1, z; (xviii) y, x, z; (xix) y, x, z; (xx) x+1/2, y1/2, z+1/2; (xxi) x1/2, y1/2, z+1/2.
Unit-cell parameters for all synthesized Ga- and In-substitutied Ca11GaxBi10-x, Ca11InxBi10–x, Yb11GaxBi10-x, and Yb11InxBi10-x bismuthides. top
Formulaa (Å)c (Å)
Ca11GaxBi10-x (x 0.8)12.167 (3)17.623 (4)
Ca11GaxBi10-x (x 1.1)12.156 (1)17.578 (2)
Yb11GaxBi10-x (x 0.7)12.109 (1)17.507 (4)
Yb11InxBi10-x (x 1.8)12.217 (1)17.113 (4)
 

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