Literature DB >> 21582033

I(8)As(21)Ge(25).

Katia Ayouz¹, Mohammed Kars, Allaoua Rebbah, Houria Rebbah.

Abstract

Single crystals of octaiodine henacosarsenic pentacosagermanium were grown by chemical transport reactions. The structure is isotypic with the analogous clathrates-I. In this structure, the statistically occupied clathrand atoms (As,Ge)(46) form bonds in a distorted tetra-hedral coordination and their arrangement can define two polyhedra of different sizes; one is an (As,Ge)(20) penta-gonal dodeca-hedron, and the other is an (As,Ge)(24) tetra-kaideca-hedron. The guest atom (iodine) resides inside these polyhedra with site symmetry m3 (Wyckoff position 2a) and 2m (Wyckoff position 6d), respectively.

Entities: Chemical Disease Species

Year: 2009 PMID： 21582033 PMCID： PMC2968696 DOI： 10.1107/S1600536809004991

Source DB: PubMed Journal: Acta Crystallogr Sect E Struct Rep Online ISSN： 1600-5368

Littérature associée

La synthèse en phase vapeur des premiers clathrates M 8 A 8Ge38 (M = halogènes, A = P, As, Sb) est décrite par Menke & von Schnering (1973 ▶). Les structures sont isotypes aux hydrates de gaz correspondants (Pauling & Marsh, 1952 ▶). Pour les propriétés semiconductrices et thermoélectriques, voir respectivement Chu et al. (1982 ▶) et Kishimoto et al. (2006 ▶). Pour les propriétés structurales et la conductivité thermique de M 8A16Ge30 (M = Sr, Eu), voir Nolas et al. (2000 ▶). Pour autres composées d’intérêt, voir Nespa et al. (1986 ▶) et Shreeve-Keyer et al. (1997 ▶).

Partie expérimentale

Donńees crystallines

I8As21Ge25 M = 4403 Cubique, a = 10.5963 (6) Å V = 1189.77 (13) Å3 Z = 1 Mo Kα radiation μ = 34.30 mm−1 T = 293 K 0.08 × 0.07 × 0.04 mm

Collection de données

Diffractomètre Nonius KappaCCD Correction d’absorption: Gaussian (JANA2000; Petříček & Dušek, 2000 ▶) T min = 0.137, T max = 0.330 5499 réflexions mesurées 606 réflexions indépendantes 454 réflexions avec I > 3σ(I) R int = 0.064

Affinement

R[F 2 > 2σ(F 2)] = 0.030 wR(F 2) = 0.037 S = 1.75 606 réflexions 15 paramètres 3 contraintes Δρmax = 2.48 e Å−3 Δρmin = −3.60 e Å−3 Collection des donńees: KappaCCD Software (Nonius, 1998 ▶); affinement des paramètres de la maille: KappaCCD Software; reduction des donńees: DENZO et SCALEPACK (Otwinowski & Minor, 1997 ▶); méthode pour la solution de la structure: coordonnées prises des clathrates-I analogues (Menke & von Schnering, 1973 ▶); programme(s) pour l’affinement de la structure: JANA2000 (Petříček & Dušek, 2000 ▶); graphisme moléculaire: GRETEP (Laugier & Bochu, 2002 ▶); logiciel utilisé pour préparer le matériel pour publication: JANA2000. Crystal structure: contains datablocks global, I. DOI: 10.1107/S1600536809004991/br2095sup1.cif Structure factors: contains datablocks I. DOI: 10.1107/S1600536809004991/br2095Isup2.hkl Additional supplementary materials: crystallographic information; 3D view; checkCIF report

I₈As₂₁Ge₂₅	D_x = 6.143 (1) Mg m⁻³
M_r = 4403	Mo Kα radiation, λ = 0.71069 Å
Cubic, Pm3n	Cell parameters from 25 reflections
Hall symbol: -P 4n 2 3	θ = 6.1–38.0°
a = 10.5963 (6) Å	µ = 34.30 mm⁻¹
V = 1189.77 (13) Å³	T = 293 K
Z = 1	Cubic, colourless
F(000) = 1917	0.08 × 0.07 × 0.04 mm

Nonius KappaCCD diffractometer	606 independent reflections
Radiation source: fine-focus sealed tube	454 reflections with I > 3σ(I)
graphite	R_int = 0.064
φ scans	θ_max = 38.0°, θ_min = 6.1°
Absorption correction: gaussian (JANA2000; Petříček & Dušek, 2000)	h = −17→18
T_min = 0.137, T_max = 0.330	k = −12→10
5499 measured reflections	l = −10→17

Refinement on F	3 restraints
R[F² > 2σ(F²)] = 0.030	Weighting scheme based on measured s.u.'s w = 1/[σ²(F) + 0.0001F²]
wR(F²) = 0.037	(Δ/σ)_max = 0.0001
S = 1.75	Δρ_max = 2.48 e Å⁻³
606 reflections	Δρ_min = −3.60 e Å⁻³
15 parameters

Refinement. Refinement of F² against ALL reflections. The weighted R-factor wR and goodness of fit S are based on F², conventional R-factors are based on F, with F set to zero for negative F². The threshold expression of F² > n*σ(F²) is used only for calculating R-factors etc. and is not relevant to the choice of reflections for refinement. The program used for refinement, Jana2000, uses the weighting scheme based on the experimental expectations, see _refine_ls_weighting_details, that does not force S to be one. Therefore the values of S are usually larger then the ones from the SHELX program.

	x	y	z	U_iso*/U_eq	Occ. (<1)
I1	0	0	0	0.01086 (12)
I2	0.25	0.5	0	0.01537 (14)
Ge3	0	0.31029 (6)	0.11761 (6)	0.01180 (15)	0.971 (4)
As3	0	0.31029 (6)	0.11761 (6)	0.01180 (15)	0.029 (4)
As2	0.18337 (4)	0.18337 (4)	0.18337 (4)	0.01082 (8)	0.900 (4)
Ge2	0.18337 (4)	0.18337 (4)	0.18337 (4)	0.01082 (8)	0.100 (4)
As1	0.25	0	0.5	0.0144 (2)	0.966 (8)
Ge1	0.25	0	0.5	0.0144 (2)	0.034 (8)

	U¹¹	U²²	U³³	U¹²	U¹³	U²³
I1	0.0109 (2)	0.0109 (2)	0.0109 (2)	0	0	0
I2	0.0110 (3)	0.0176 (2)	0.0176 (2)	0	0	0
Ge3	0.0112 (3)	0.0129 (3)	0.0113 (3)	0	0	−0.0009 (2)
As3	0.0112 (3)	0.0129 (3)	0.0113 (3)	0	0	−0.0009 (2)
As2	0.01082 (14)	0.01082 (14)	0.01082 (14)	−0.00079 (13)	−0.00079 (13)	−0.00079 (13)
Ge2	0.01082 (14)	0.01082 (14)	0.01082 (14)	−0.00079 (13)	−0.00079 (13)	−0.00079 (13)
As1	0.0152 (5)	0.0140 (3)	0.0140 (3)	0	0	0
Ge1	0.0152 (5)	0.0140 (3)	0.0140 (3)	0	0	0

I1—Ge3	3.5161 (7)	I2—Ge3	3.5513 (4)
I1—Ge3ⁱ	3.5161 (7)	I2—Ge3^xvi	3.5513 (4)
I1—Ge3ⁱⁱ	3.5161 (7)	I2—Ge3^xvii	3.5513 (4)
I1—Ge3ⁱⁱⁱ	3.5161 (7)	I2—Ge3^v	3.5513 (4)
I1—Ge3^iv	3.5161 (7)	I2—Ge3^xviii	3.5513 (4)
I1—Ge3^v	3.5161 (7)	I2—Ge3^xix	3.5513 (4)
I1—Ge3^vi	3.5161 (7)	I2—Ge3^xx	3.5513 (4)
I1—Ge3^vii	3.5161 (7)	I2—Ge3^xxi	3.5513 (4)
I1—Ge3^viii	3.5161 (7)	I2—As1^xxii	3.7464 (2)
I1—Ge3^ix	3.5161 (7)	I2—As1^xxiii	3.7464 (2)
I1—Ge3^x	3.5161 (7)	I2—As1^xxiv	3.7464 (2)
I1—Ge3^xi	3.5161 (7)	I2—As1^xxv	3.7464 (2)
I1—As2	3.3655 (4)	Ge3—Ge3^v	2.4925 (9)
I1—As2ⁱ	3.3655 (4)	Ge3—As2	2.4636 (6)
I1—As2^xii	3.3655 (4)	Ge3—As2^xiii	2.4636 (6)
I1—As2^xiii	3.3655 (4)	Ge3—As1^xxv	2.4513 (7)
I1—As2^iv	3.3655 (4)	As2—As2^xiii	3.8862 (6)
I1—As2^v	3.3655 (4)	As2—As2^v	3.8862 (6)
I1—As2^xiv	3.3655 (4)	As2—As2^xv	3.8862 (6)
I1—As2^xv	3.3655 (4)	As2—As2^xxvi	2.4457 (6)

Ge3—I1—Ge3ⁱ	180	As2^xiii—I1—As2ⁱ	109.471 (10)
Ge3—I1—Ge3ⁱⁱ	70.644 (10)	As2^xiii—I1—As2^xii	180
Ge3—I1—Ge3ⁱⁱⁱ	109.356 (10)	As2^xiii—I1—As2^iv	70.529 (10)
Ge3—I1—Ge3^iv	138.482 (15)	As2^xiii—I1—As2^v	109.471 (10)
Ge3—I1—Ge3^vi	70.644 (10)	As2^xiii—I1—As2^xiv	70.529 (10)
Ge3—I1—Ge3^vii	109.356 (10)	As2^xiii—I1—As2^xv	109.471 (10)
Ge3—I1—Ge3^viii	70.644 (10)	As2^iv—I1—As2	109.471 (10)
Ge3—I1—Ge3^ix	109.356 (10)	As2^iv—I1—As2ⁱ	70.529 (10)
Ge3—I1—Ge3^x	70.644 (10)	As2^iv—I1—As2^xii	109.471 (10)
Ge3—I1—Ge3^xi	109.356 (10)	As2^iv—I1—As2^xiii	70.529 (10)
Ge3—I1—As2ⁱ	138.117 (9)	As2^iv—I1—As2^v	180
Ge3—I1—As2^xii	138.117 (9)	As2^iv—I1—As2^xiv	109.471 (10)
Ge3—I1—As2^iv	109.587 (11)	As2^iv—I1—As2^xv	70.529 (10)
Ge3—I1—As2^v	70.413 (11)	As2^v—I1—As2	70.529 (10)
Ge3—I1—As2^xiv	70.413 (11)	As2^v—I1—As2ⁱ	109.471 (10)
Ge3—I1—As2^xv	109.587 (11)	As2^v—I1—As2^xii	70.529 (10)
Ge3ⁱ—I1—Ge3	180	As2^v—I1—As2^xiii	109.471 (10)
Ge3ⁱ—I1—Ge3ⁱⁱ	109.356 (10)	As2^v—I1—As2^iv	180
Ge3ⁱ—I1—Ge3ⁱⁱⁱ	70.644 (10)	As2^v—I1—As2^xiv	70.529 (10)
Ge3ⁱ—I1—Ge3^v	138.482 (15)	As2^v—I1—As2^xv	109.471 (10)
Ge3ⁱ—I1—Ge3^vi	109.356 (10)	As2^xiv—I1—As2	109.471 (10)
Ge3ⁱ—I1—Ge3^vii	70.644 (10)	As2^xiv—I1—As2ⁱ	70.529 (10)
Ge3ⁱ—I1—Ge3^viii	109.356 (10)	As2^xiv—I1—As2^xii	109.471 (10)
Ge3ⁱ—I1—Ge3^ix	70.644 (10)	As2^xiv—I1—As2^xiii	70.529 (10)
Ge3ⁱ—I1—Ge3^x	109.356 (10)	As2^xiv—I1—As2^iv	109.471 (10)
Ge3ⁱ—I1—Ge3^xi	70.644 (10)	As2^xiv—I1—As2^v	70.529 (10)
Ge3ⁱ—I1—As2	138.117 (9)	As2^xiv—I1—As2^xv	180
Ge3ⁱ—I1—As2^xiii	138.117 (9)	As2^xv—I1—As2	70.529 (10)
Ge3ⁱ—I1—As2^iv	70.413 (11)	As2^xv—I1—As2ⁱ	109.471 (10)
Ge3ⁱ—I1—As2^v	109.587 (11)	As2^xv—I1—As2^xii	70.529 (10)
Ge3ⁱ—I1—As2^xiv	109.587 (11)	As2^xv—I1—As2^xiii	109.471 (10)
Ge3ⁱ—I1—As2^xv	70.413 (11)	As2^xv—I1—As2^iv	70.529 (10)
Ge3ⁱⁱ—I1—Ge3	70.644 (10)	As2^xv—I1—As2^v	109.471 (10)
Ge3ⁱⁱ—I1—Ge3ⁱ	109.356 (10)	As2^xv—I1—As2^xiv	180
Ge3ⁱⁱ—I1—Ge3ⁱⁱⁱ	180	Ge3—I2—Ge3^xvi	83.521 (11)
Ge3ⁱⁱ—I1—Ge3^iv	70.644 (10)	Ge3—I2—Ge3^xvii	68.952 (13)
Ge3ⁱⁱ—I1—Ge3^v	109.356 (10)	Ge3—I2—Ge3^xviii	162.500 (15)
Ge3ⁱⁱ—I1—Ge3^vii	138.482 (15)	Ge3—I2—Ge3^xix	99.156 (11)
Ge3ⁱⁱ—I1—Ge3^viii	70.644 (10)	Ge3—I2—Ge3^xx	123.809 (13)
Ge3ⁱⁱ—I1—Ge3^ix	109.356 (10)	Ge3—I2—Ge3^xxi	123.809 (13)
Ge3ⁱⁱ—I1—Ge3^x	109.356 (10)	Ge3—I2—As1^xxii	158.083 (10)
Ge3ⁱⁱ—I1—Ge3^xi	70.644 (10)	Ge3—I2—As1^xxiii	97.307 (9)
Ge3ⁱⁱ—I1—As2ⁱ	138.117 (9)	Ge3—I2—As1^xxiv	73.781 (9)
Ge3ⁱⁱ—I1—As2^xii	109.587 (11)	Ge3^xvi—I2—Ge3	83.521 (11)
Ge3ⁱⁱ—I1—As2^xiii	70.413 (11)	Ge3^xvi—I2—Ge3^v	68.952 (13)
Ge3ⁱⁱ—I1—As2^iv	70.413 (11)	Ge3^xvi—I2—Ge3^xviii	99.156 (11)
Ge3ⁱⁱ—I1—As2^v	109.587 (11)	Ge3^xvi—I2—Ge3^xix	162.500 (15)
Ge3ⁱⁱ—I1—As2^xiv	138.117 (9)	Ge3^xvi—I2—Ge3^xx	123.809 (13)
Ge3ⁱⁱⁱ—I1—Ge3	109.356 (10)	Ge3^xvi—I2—Ge3^xxi	123.809 (13)
Ge3ⁱⁱⁱ—I1—Ge3ⁱ	70.644 (10)	Ge3^xvi—I2—As1^xxii	97.307 (9)
Ge3ⁱⁱⁱ—I1—Ge3ⁱⁱ	180	Ge3^xvi—I2—As1^xxiii	158.083 (10)
Ge3ⁱⁱⁱ—I1—Ge3^iv	109.356 (10)	Ge3^xvii—I2—Ge3	68.952 (13)
Ge3ⁱⁱⁱ—I1—Ge3^v	70.644 (10)	Ge3^xvii—I2—Ge3^v	83.521 (11)
Ge3ⁱⁱⁱ—I1—Ge3^vi	138.482 (15)	Ge3^xvii—I2—Ge3^xviii	123.809 (13)
Ge3ⁱⁱⁱ—I1—Ge3^viii	109.356 (10)	Ge3^xvii—I2—Ge3^xix	123.809 (13)
Ge3ⁱⁱⁱ—I1—Ge3^ix	70.644 (10)	Ge3^xvii—I2—Ge3^xx	162.500 (15)
Ge3ⁱⁱⁱ—I1—Ge3^x	70.644 (10)	Ge3^xvii—I2—Ge3^xxi	99.156 (11)
Ge3ⁱⁱⁱ—I1—Ge3^xi	109.356 (10)	Ge3^xvii—I2—As1^xxii	97.307 (9)
Ge3ⁱⁱⁱ—I1—As2	138.117 (9)	Ge3^xvii—I2—As1^xxiii	158.083 (10)
Ge3ⁱⁱⁱ—I1—As2^xii	70.413 (11)	Ge3^xvii—I2—As1^xxiv	73.781 (9)
Ge3ⁱⁱⁱ—I1—As2^xiii	109.587 (11)	Ge3^v—I2—Ge3^xvi	68.952 (13)
Ge3ⁱⁱⁱ—I1—As2^iv	109.587 (11)	Ge3^v—I2—Ge3^xvii	83.521 (11)
Ge3ⁱⁱⁱ—I1—As2^v	70.413 (11)	Ge3^v—I2—Ge3^xviii	123.809 (13)
Ge3ⁱⁱⁱ—I1—As2^xv	138.117 (9)	Ge3^v—I2—Ge3^xix	123.809 (13)
Ge3^iv—I1—Ge3	138.482 (15)	Ge3^v—I2—Ge3^xx	99.156 (11)
Ge3^iv—I1—Ge3ⁱⁱ	70.644 (10)	Ge3^v—I2—Ge3^xxi	162.500 (15)
Ge3^iv—I1—Ge3ⁱⁱⁱ	109.356 (10)	Ge3^v—I2—As1^xxii	158.083 (10)
Ge3^iv—I1—Ge3^v	180	Ge3^v—I2—As1^xxiii	97.307 (9)
Ge3^iv—I1—Ge3^vi	70.644 (10)	Ge3^v—I2—As1^xxv	73.781 (9)
Ge3^iv—I1—Ge3^vii	109.356 (10)	Ge3^xviii—I2—Ge3	162.500 (15)
Ge3^iv—I1—Ge3^viii	109.356 (10)	Ge3^xviii—I2—Ge3^xvi	99.156 (11)
Ge3^iv—I1—Ge3^ix	70.644 (10)	Ge3^xviii—I2—Ge3^xvii	123.809 (13)
Ge3^iv—I1—Ge3^x	109.356 (10)	Ge3^xviii—I2—Ge3^v	123.809 (13)
Ge3^iv—I1—Ge3^xi	70.644 (10)	Ge3^xviii—I2—Ge3^xix	83.521 (11)
Ge3^iv—I1—As2	109.587 (11)	Ge3^xviii—I2—Ge3^xxi	68.952 (13)
Ge3^iv—I1—As2ⁱ	70.413 (11)	Ge3^xviii—I2—As1^xxiii	73.781 (9)
Ge3^iv—I1—As2^xii	70.413 (11)	Ge3^xviii—I2—As1^xxiv	97.307 (9)
Ge3^iv—I1—As2^xiii	109.587 (11)	Ge3^xviii—I2—As1^xxv	158.083 (10)
Ge3^iv—I1—As2^v	138.117 (9)	Ge3^xix—I2—Ge3	99.156 (11)
Ge3^iv—I1—As2^xiv	138.117 (9)	Ge3^xix—I2—Ge3^xvi	162.500 (15)
Ge3^v—I1—Ge3ⁱ	138.482 (15)	Ge3^xix—I2—Ge3^xvii	123.809 (13)
Ge3^v—I1—Ge3ⁱⁱ	109.356 (10)	Ge3^xix—I2—Ge3^v	123.809 (13)
Ge3^v—I1—Ge3ⁱⁱⁱ	70.644 (10)	Ge3^xix—I2—Ge3^xviii	83.521 (11)
Ge3^v—I1—Ge3^iv	180	Ge3^xix—I2—Ge3^xx	68.952 (13)
Ge3^v—I1—Ge3^vi	109.356 (10)	Ge3^xix—I2—As1^xxii	73.781 (9)
Ge3^v—I1—Ge3^vii	70.644 (10)	Ge3^xix—I2—As1^xxiv	158.083 (10)
Ge3^v—I1—Ge3^viii	70.644 (10)	Ge3^xix—I2—As1^xxv	97.307 (9)
Ge3^v—I1—Ge3^ix	109.356 (10)	Ge3^xx—I2—Ge3	123.809 (13)
Ge3^v—I1—Ge3^x	70.644 (10)	Ge3^xx—I2—Ge3^xvi	123.809 (13)
Ge3^v—I1—Ge3^xi	109.356 (10)	Ge3^xx—I2—Ge3^xvii	162.500 (15)
Ge3^v—I1—As2	70.413 (11)	Ge3^xx—I2—Ge3^v	99.156 (11)
Ge3^v—I1—As2ⁱ	109.587 (11)	Ge3^xx—I2—Ge3^xix	68.952 (13)
Ge3^v—I1—As2^xii	109.587 (11)	Ge3^xx—I2—Ge3^xxi	83.521 (11)
Ge3^v—I1—As2^xiii	70.413 (11)	Ge3^xx—I2—As1^xxii	73.781 (9)
Ge3^v—I1—As2^iv	138.117 (9)	Ge3^xx—I2—As1^xxiv	97.307 (9)
Ge3^v—I1—As2^xv	138.117 (9)	Ge3^xx—I2—As1^xxv	158.083 (10)
Ge3^vi—I1—Ge3	70.644 (10)	Ge3^xxi—I2—Ge3	123.809 (13)
Ge3^vi—I1—Ge3ⁱ	109.356 (10)	Ge3^xxi—I2—Ge3^xvi	123.809 (13)
Ge3^vi—I1—Ge3ⁱⁱⁱ	138.482 (15)	Ge3^xxi—I2—Ge3^xvii	99.156 (11)
Ge3^vi—I1—Ge3^iv	70.644 (10)	Ge3^xxi—I2—Ge3^v	162.500 (15)
Ge3^vi—I1—Ge3^v	109.356 (10)	Ge3^xxi—I2—Ge3^xviii	68.952 (13)
Ge3^vi—I1—Ge3^vii	180	Ge3^xxi—I2—Ge3^xx	83.521 (11)
Ge3^vi—I1—Ge3^viii	109.356 (10)	Ge3^xxi—I2—As1^xxiii	73.781 (9)
Ge3^vi—I1—Ge3^ix	70.644 (10)	Ge3^xxi—I2—As1^xxiv	158.083 (10)
Ge3^vi—I1—Ge3^x	70.644 (10)	Ge3^xxi—I2—As1^xxv	97.307 (9)
Ge3^vi—I1—Ge3^xi	109.356 (10)	As1^xxii—I2—As1^xxiii	90
Ge3^vi—I1—As2	70.413 (11)	As1^xxii—I2—As1^xxiv	120
Ge3^vi—I1—As2ⁱ	109.587 (11)	As1^xxii—I2—As1^xxv	120
Ge3^vi—I1—As2^xii	138.117 (9)	As1^xxiii—I2—As1^xxii	90
Ge3^vi—I1—As2^v	138.117 (9)	As1^xxiii—I2—As1^xxiv	120
Ge3^vi—I1—As2^xiv	109.587 (11)	As1^xxiii—I2—As1^xxv	120
Ge3^vi—I1—As2^xv	70.413 (11)	As1^xxiv—I2—As1^xxii	120
Ge3^vii—I1—Ge3	109.356 (10)	As1^xxiv—I2—As1^xxiii	120
Ge3^vii—I1—Ge3ⁱ	70.644 (10)	As1^xxiv—I2—As1^xxv	90
Ge3^vii—I1—Ge3ⁱⁱ	138.482 (15)	As1^xxv—I2—As1^xxii	120
Ge3^vii—I1—Ge3^iv	109.356 (10)	As1^xxv—I2—As1^xxiii	120
Ge3^vii—I1—Ge3^v	70.644 (10)	As1^xxv—I2—As1^xxiv	90
Ge3^vii—I1—Ge3^vi	180	I1—Ge3—I2	113.887 (13)
Ge3^vii—I1—Ge3^viii	70.644 (10)	I1—Ge3—I2^xvi	113.887 (13)
Ge3^vii—I1—Ge3^ix	109.356 (10)	I1—Ge3—Ge3^v	69.24 (2)
Ge3^vii—I1—Ge3^x	109.356 (10)	I1—Ge3—As2	65.785 (17)
Ge3^vii—I1—Ge3^xi	70.644 (10)	I1—Ge3—As2^xiii	65.785 (17)
Ge3^vii—I1—As2	109.587 (11)	I1—Ge3—As1^xxv	165.85 (3)
Ge3^vii—I1—As2ⁱ	70.413 (11)	I2—Ge3—I2^xvi	96.479 (16)
Ge3^vii—I1—As2^xiii	138.117 (9)	I2—Ge3—Ge3^v	69.456 (15)
Ge3^vii—I1—As2^iv	138.117 (9)	I2—Ge3—As2	79.626 (11)
Ge3^vii—I1—As2^xiv	70.413 (11)	I2—Ge3—As2^xiii	175.25 (2)
Ge3^vii—I1—As2^xv	109.587 (11)	I2—Ge3—As1^xxv	74.729 (13)
Ge3^viii—I1—Ge3	70.644 (10)	I2^xvi—Ge3—I2	96.479 (16)
Ge3^viii—I1—Ge3ⁱ	109.356 (10)	I2^xvi—Ge3—Ge3^v	69.456 (15)
Ge3^viii—I1—Ge3ⁱⁱ	70.644 (10)	I2^xvi—Ge3—As2	175.25 (2)
Ge3^viii—I1—Ge3ⁱⁱⁱ	109.356 (10)	I2^xvi—Ge3—As2^xiii	79.626 (11)
Ge3^viii—I1—Ge3^iv	109.356 (10)	I2^xvi—Ge3—As1^xxv	74.729 (13)
Ge3^viii—I1—Ge3^v	70.644 (10)	Ge3^v—Ge3—As2	106.43 (2)
Ge3^viii—I1—Ge3^vi	109.356 (10)	Ge3^v—Ge3—As2^xiii	106.43 (2)
Ge3^viii—I1—Ge3^vii	70.644 (10)	Ge3^v—Ge3—As1^xxv	124.91 (3)
Ge3^viii—I1—Ge3^ix	180	As2—Ge3—As2^xiii	104.13 (3)
Ge3^viii—I1—Ge3^x	138.482 (15)	As2—Ge3—As1^xxv	106.61 (2)
Ge3^viii—I1—As2ⁱ	138.117 (9)	As2^xiii—Ge3—As2	104.13 (3)
Ge3^viii—I1—As2^xii	70.413 (11)	As2^xiii—Ge3—As1^xxv	106.61 (2)
Ge3^viii—I1—As2^xiii	109.587 (11)	I1—As2—Ge3	72.332 (17)
Ge3^viii—I1—As2^iv	138.117 (9)	I1—As2—Ge3ⁱⁱ	72.332 (17)
Ge3^viii—I1—As2^xiv	109.587 (11)	I1—As2—Ge3^viii	72.332 (17)
Ge3^viii—I1—As2^xv	70.413 (11)	I1—As2—As2^xiii	54.736 (9)
Ge3^ix—I1—Ge3	109.356 (10)	I1—As2—As2^v	54.736 (9)
Ge3^ix—I1—Ge3ⁱ	70.644 (10)	I1—As2—As2^xv	54.736 (9)
Ge3^ix—I1—Ge3ⁱⁱ	109.356 (10)	I1—As2—As2^xxvi	180
Ge3^ix—I1—Ge3ⁱⁱⁱ	70.644 (10)	Ge3—As2—Ge3ⁱⁱ	111.21 (2)
Ge3^ix—I1—Ge3^iv	70.644 (10)	Ge3—As2—Ge3^viii	111.21 (2)
Ge3^ix—I1—Ge3^v	109.356 (10)	Ge3—As2—As2^v	73.570 (18)
Ge3^ix—I1—Ge3^vi	70.644 (10)	Ge3—As2—As2^xv	123.08 (2)
Ge3^ix—I1—Ge3^vii	109.356 (10)	Ge3—As2—As2^xxvi	107.67 (2)
Ge3^ix—I1—Ge3^viii	180	Ge3ⁱⁱ—As2—Ge3	111.21 (2)
Ge3^ix—I1—Ge3^xi	138.482 (15)	Ge3ⁱⁱ—As2—Ge3^viii	111.21 (2)
Ge3^ix—I1—As2	138.117 (9)	Ge3ⁱⁱ—As2—As2^xiii	73.570 (18)
Ge3^ix—I1—As2^xii	109.587 (11)	Ge3ⁱⁱ—As2—As2^v	123.08 (2)
Ge3^ix—I1—As2^xiii	70.413 (11)	Ge3ⁱⁱ—As2—As2^xxvi	107.67 (2)
Ge3^ix—I1—As2^v	138.117 (9)	Ge3^viii—As2—Ge3	111.21 (2)
Ge3^ix—I1—As2^xiv	70.413 (11)	Ge3^viii—As2—Ge3ⁱⁱ	111.21 (2)
Ge3^ix—I1—As2^xv	109.587 (11)	Ge3^viii—As2—As2^xiii	123.08 (2)
Ge3^x—I1—Ge3	70.644 (10)	Ge3^viii—As2—As2^xv	73.570 (18)
Ge3^x—I1—Ge3ⁱ	109.356 (10)	Ge3^viii—As2—As2^xxvi	107.67 (2)
Ge3^x—I1—Ge3ⁱⁱ	109.356 (10)	As2^xiii—As2—As2^v	90
Ge3^x—I1—Ge3ⁱⁱⁱ	70.644 (10)	As2^xiii—As2—As2^xv	90
Ge3^x—I1—Ge3^iv	109.356 (10)	As2^xiii—As2—As2^xxvi	125.264 (18)
Ge3^x—I1—Ge3^v	70.644 (10)	As2^v—As2—As2^xiii	90
Ge3^x—I1—Ge3^vi	70.644 (10)	As2^v—As2—As2^xv	90
Ge3^x—I1—Ge3^vii	109.356 (10)	As2^v—As2—As2^xxvi	125.264 (18)
Ge3^x—I1—Ge3^viii	138.482 (15)	As2^xv—As2—As2^xiii	90
Ge3^x—I1—Ge3^xi	180	As2^xv—As2—As2^v	90
Ge3^x—I1—As2	109.587 (11)	As2^xv—As2—As2^xxvi	125.264 (18)
Ge3^x—I1—As2ⁱ	70.413 (11)	As2^xxvi—As2—As2^xiii	125.264 (18)
Ge3^x—I1—As2^xii	138.117 (9)	As2^xxvi—As2—As2^v	125.264 (18)
Ge3^x—I1—As2^iv	70.413 (11)	As2^xxvi—As2—As2^xv	125.264 (18)
Ge3^x—I1—As2^v	109.587 (11)	I2^xxvii—As1—I2^xxviii	90
Ge3^x—I1—As2^xv	138.117 (9)	I2^xxvii—As1—I2^xxix	120
Ge3^xi—I1—Ge3	109.356 (10)	I2^xxvii—As1—I2^xxx	120
Ge3^xi—I1—Ge3ⁱ	70.644 (10)	I2^xxvii—As1—Ge3ⁱⁱ	66.131 (10)
Ge3^xi—I1—Ge3ⁱⁱ	70.644 (10)	I2^xxvii—As1—Ge3^xxxi	66.131 (10)
Ge3^xi—I1—Ge3ⁱⁱⁱ	109.356 (10)	I2^xxvii—As1—Ge3^xxx	79.908 (15)
Ge3^xi—I1—Ge3^iv	70.644 (10)	I2^xxvii—As1—Ge3^xxxii	169.908 (15)
Ge3^xi—I1—Ge3^v	109.356 (10)	I2^xxviii—As1—I2^xxvii	90
Ge3^xi—I1—Ge3^vi	109.356 (10)	I2^xxviii—As1—I2^xxix	120
Ge3^xi—I1—Ge3^vii	70.644 (10)	I2^xxviii—As1—I2^xxx	120
Ge3^xi—I1—Ge3^ix	138.482 (15)	I2^xxviii—As1—Ge3ⁱⁱ	66.131 (10)
Ge3^xi—I1—Ge3^x	180	I2^xxviii—As1—Ge3^xxxi	66.131 (10)
Ge3^xi—I1—As2	70.413 (11)	I2^xxviii—As1—Ge3^xxx	169.908 (15)
Ge3^xi—I1—As2ⁱ	109.587 (11)	I2^xxviii—As1—Ge3^xxxii	79.908 (15)
Ge3^xi—I1—As2^xiii	138.117 (9)	I2^xxix—As1—I2^xxvii	120
Ge3^xi—I1—As2^iv	109.587 (11)	I2^xxix—As1—I2^xxviii	120
Ge3^xi—I1—As2^v	70.413 (11)	I2^xxix—As1—I2^xxx	90
Ge3^xi—I1—As2^xiv	138.117 (9)	I2^xxix—As1—Ge3ⁱⁱ	169.908 (15)
As2—I1—As2ⁱ	180	I2^xxix—As1—Ge3^xxxi	79.908 (15)
As2—I1—As2^xii	109.471 (10)	I2^xxix—As1—Ge3^xxx	66.131 (10)
As2—I1—As2^xiii	70.529 (10)	I2^xxix—As1—Ge3^xxxii	66.131 (10)
As2—I1—As2^iv	109.471 (10)	I2^xxx—As1—I2^xxvii	120
As2—I1—As2^v	70.529 (10)	I2^xxx—As1—I2^xxviii	120
As2—I1—As2^xiv	109.471 (10)	I2^xxx—As1—I2^xxix	90
As2—I1—As2^xv	70.529 (10)	I2^xxx—As1—Ge3ⁱⁱ	79.908 (15)
As2ⁱ—I1—As2	180	I2^xxx—As1—Ge3^xxxi	169.908 (15)
As2ⁱ—I1—As2^xii	70.529 (10)	I2^xxx—As1—Ge3^xxx	66.131 (10)
As2ⁱ—I1—As2^xiii	109.471 (10)	I2^xxx—As1—Ge3^xxxii	66.131 (10)
As2ⁱ—I1—As2^iv	70.529 (10)	Ge3ⁱⁱ—As1—Ge3^xxxi	110.18 (2)
As2ⁱ—I1—As2^v	109.471 (10)	Ge3ⁱⁱ—As1—Ge3^xxx	109.116 (11)
As2ⁱ—I1—As2^xiv	70.529 (10)	Ge3ⁱⁱ—As1—Ge3^xxxii	109.116 (11)
As2ⁱ—I1—As2^xv	109.471 (10)	Ge3^xxxi—As1—Ge3ⁱⁱ	110.18 (2)
As2^xii—I1—As2	109.471 (10)	Ge3^xxxi—As1—Ge3^xxx	109.116 (11)
As2^xii—I1—As2ⁱ	70.529 (10)	Ge3^xxxi—As1—Ge3^xxxii	109.116 (11)
As2^xii—I1—As2^xiii	180	Ge3^xxx—As1—Ge3ⁱⁱ	109.116 (11)
As2^xii—I1—As2^iv	109.471 (10)	Ge3^xxx—As1—Ge3^xxxi	109.116 (11)
As2^xii—I1—As2^v	70.529 (10)	Ge3^xxx—As1—Ge3^xxxii	110.18 (2)
As2^xii—I1—As2^xiv	109.471 (10)	Ge3^xxxii—As1—Ge3ⁱⁱ	109.116 (11)
As2^xii—I1—As2^xv	70.529 (10)	Ge3^xxxii—As1—Ge3^xxxi	109.116 (11)
As2^xiii—I1—As2	70.529 (10)	Ge3^xxxii—As1—Ge3^xxx	110.18 (2)

1 in total

1. The Structure of Chlorine Hydrate.

Authors: L Pauling; R E Marsh
Journal: Proc Natl Acad Sci U S A Date: 1952-02 Impact factor: 11.205

1 in total

1. I(8)Sb(10)Ge(36).

Authors: Mohammed Kars; Thierry Roisnel; Vincent Dorcet; Allaoua Rebbah; L Carlos Otero-Diáz
Journal: Acta Crystallogr Sect E Struct Rep Online Date: 2010-05-19

1 in total