User:Graeme Bartlett/tellurostannate

Tellurostannates are chemical compounds containing anions with tellurium bound to tin. There are also tellurogermanates, thiostannates and selenidostannates.

Related compounds may substitute tellurium with selenium and sulfur to produce a range of hetero-chalcogenidostannates.^[1]

10.1016/j.poly.2022.115729

List

name	chem	mw	crystal system	space group	unit cell Å	volume	density	comment	CAS no	references
	Li4[SnIV2Te6]·8en									[2]
	[enH]4[SnIV2Te6]·en		triclinic	P1	a 11.755 b 11.978 c 13.985, α 77.12° β 74.74° γ 62.98°					[2]
	[Na4(en)4][SnTe4]			P21/c	a=7.599 b=26.496 c=13.710 β: 92.84°	2756.8				[3]
	[K4(H2O)0.5][SnTe4]		monoclinic	C2/c	a 21.523 b 11.518 c 15.708 β 130.53°					[4]
	[K4(H2O)(en)][SnTe4]		triclinic	P1	a 8.486 b 8.712 c 13.500 α 93.47° β 104.14° γ 90.83°					[4]
Tetraphenylphosphonium (μ3-telluro)-(μ2-methanol)-(μ2-telluro)-dimethanol-telluro-potassium-tin	PPh4[K(MeOH)3(OH)][SnTe5]		triclinic	P1	a 11.0590 b 12.7370 c 13.3224 α 75.252° β 67.782° γ 76.021°					[5]
	[Mn(en)3]2[Sn2Te6]		orthorhombic	Pbca	a=15.797 b=12.640 c=20.175 Z=4	4028.4				[6]
tris(Ethylene-1,2-diamine)-manganese (μ2-tellurido)-ditelluro-tin dihydrate	[Mn(en)3][SnTe4]·2H2O		triclinic	P1	a=9.311 b=9.435 c=12.800 α 108.36° β 98.43° γ 103.82°	1005.8				[3]
teta = triethylenetetramine and en = ethylenediamine	[Mn(teta)(en)]·[Mn(teta)][Mn(SnTe4)2·Mn(teta)]	1972.74	tetragonal		a=14.4726 c =24.0551 Z=4	5032.8	2.604	band gap 0.88 eV		[7]
	(NMe4)2[MnSnTe4]		monoclinic	C2/m	a=17.440 b=7.035 c=9.465 β=117.90 Z=2	1026.3	2.694	black		[8]
	K10[Mn4(μ4-Te)(SnTe4)4]·20H2O		cubic	I43m	a=16.0889 Z=2	4164.7	2.883	black		[9]
	[Zn(en)3]2[Sn2Te6]		monoclinic	P21/n	a=9.048 b = 22.300 c = 9.360 β=103.19 Z = 4					[10]
bis(μ2-Tellurido)-bis(triethylenetetra-amine)-ditellurido-tin-di-zinc	{Zn(teta)}2(μ-1κ:2κ-SnTe4)		monoclinic	P21	a=8.4254 b=11.3038 c=15.2973 β=100.063°					[11]
tris(μ2-Tellurido)-tris(triethylenetetra-amine)-tellurido-tin-tri-zinc bis(iodide)	[{Zn(teta)}3(μ3-1κ:2κ:3κ-SnTe4)]I2		orthorhombic	P212121	a=11.536 b=15.266 c=24.076					[11]
tetrakis(μ2-Tellurido)-bis(tris(2-aminoethyl)amine)-ditellurido-di-tin-di-zinc	{Zn(tren)}2(μ-1κ:2κ-Sn2Te6)		monoclinic	P21/c	a=8.360 b 13.002 c=14.809 β=95.41°					[11]
bis(bis(diethylenetriamine)-zinc) bis(μ-tellurido)-tetratellurido-di-tin ethylenediamine	[Zn(dien)2]4(Sn2Te6)1.75(Sn2Te8)0.25·dien		monoclinic	P21/c	a=17.146 b=15.132 c=17.158 β=97.65°					[11]
	K10[Zn4(μ4-Te)(SnTe4)4]·20H2O		cubic	I43m	a=15.965 Z=2	4069.3	2.984	black		[9]
	[Rb4(H2O)2][SnTe4]		monoclinic	C2/c	a =19.993 b =7.8225 c =14.22 β =129.33°					[4]
	[Rb4(H2O)0.67(en)0.33][SnTe4]			P3	a=22.812 c=11.871					[4]
	K10[Cd4(μ4-Te)(SnTe4)4]·20H2O		cubic	I43m	a=16.142 Z=2	4206.3	3.036	black		[9]
	Rb10[Cd4(μ4-Te)(SnTe4)4]·20H2O		cubic	I43m	a=16.100 Z=2	4173.4	3.429	black		[9]
	[Cs4(H2O)2][SnTe4]		monoclinic	C2/c	a 20.757 b 8.0418 c 14.624 β 129.31°					[4]
	[Cs4(H2O)0.5(en)0.5][SnTe4]			P3	a=23.632 c 12.227					[4]
	Cs2[MnSnTe4]									[8]
	[Rb2Ba(H2O)11][SnTe4]		monoclinic	P21	a=8.5232 b=15.095 c=9.5538 β=97.03°					[4]
	K10[Hg4(μ4-Te)(SnTe4)4]·20H2O		cubic	I43m	a=16.076 Z=2	4154.6	3.355	black		[9]
(en = ethylenediamine)	[Mn(en)3]HgSnTe3(Te2)	1192.53	tetragonal	P42/bc	a=16.828 c=16.659					[12]
(dien = diethylenetriamine)	[Mn(dien)2]HgSnTe3(Te2)		monoclinic	P21/n	a=11.542 b=13.400 c=15.630 β=95.20°					[12]
	[Fe(dien)2]HgSnTe3(Te2)		monoclinic	P21/n	a=11.501 b=13.481 c=15.503 β=93.80°					[12]
	Rb2[HgSnTe4]		tetragonal	I42m	a=8.776 c=7.353 Z=2	565.0	5.882	black		[8]
	Cs6 3∞{[Hg4(μ4-Te)(SnTe4)3]6−}		trigonal	R3m	a=15.880 c=17.367 Z=3	3793.0	4.842	black		[9]

References

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2. Dehnen, Stefanie; Zimmermann, Christian (2002). "Syntheses, Crystal Structures, and Reactivity of [enH]4[Sn2Se6]·en, [enH]4[Sn2Te6]·en and [enH]4[Sn2S6]: Known Anions within Novel Coordination Spheres obtained by Novel Synthesis Routes". Zeitschrift für Anorganische und Allgemeine Chemie. 628 (11): 2463–2469. doi:10.1002/1521-3749(200211)628:11<2463::AID-ZAAC2463>3.0.CO;2-Y.
3. Ruzin, Eugen; Zimmermann, Christian; Hillebrecht, Pierre; Dehnen, Stefanie (May 2007). "Syntheses and Structures of Solvated Tetrasodiumtetrachalcogenostannates [Na4(en)4][SnE4] (en = 1,2-diaminoethane; E = Te, Se), and their Reactions Toward Further Ternary or Quaternary Chalcogenometallates [Mn(en)3]2[Sn2Te6]·4H2O or [Na10(H2O)34][Mn4(μ4-Se)(SnSe4)4]". Zeitschrift für anorganische und allgemeine Chemie (in German). 633 (5–6): 820–829. doi:10.1002/zaac.200700071.
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6. Chen, Yao; Liu, Xing; Zhou, Jian; Zou, Hua-hong; Xiang, Bin (2021-02-15). "One-Dimensional Vanadium(III) Chalcogenidostannates Incorporating [V(tepa)] 3+ Complexes as Bridging Groups". Inorganic Chemistry. 60 (4): 2127–2132. doi:10.1021/acs.inorgchem.0c03484. ISSN 0020-1669. PMID 33503370. S2CID 231765552.
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9. Ruzin, Eugen; Fuchs, Andreas; Dehnen, Stefanie (2006). "Fine-tuning of optical properties with salts of discrete or polymeric, heterobimetallic telluride anions [M 4 (μ 4 -Te)(SnTe 4 ) 4 ] 10− (M = Mn, Zn, Cd, Hg) and 3∞{[Hg 4 (μ 4 -Te)(SnTe 4 ) 3 ] 6− }". Chem. Commun. (46): 4796–4798. doi:10.1039/B610833D. ISSN 1359-7345. PMID 17345732.
10. Li, Jing; Chen, Zhen; Emge, Thomas J.; Yuen, Tan; Proserpio, Davide M. (May 1998). "Synthesis, structure characterization and magnetic properties of tellurostannates [M(en)32(Sn2Te6) (M = Mn, Zn)". Inorganica Chimica Acta. 273 (1–2): 310–315. doi:10.1016/S0020-1693(97)06035-0.
11. Lu, Jialin; Wang, Fang; Shen, Yali; Tang, Chunying; Zhang, Yong; Jia, Dingxian (August 2014). "New μ-SnTe4 and μ-Sn2Te6 ligands to transition metal: Solvothermal syntheses and characterizations of zinc tellurostannates containing polyamine ligands". Journal of Solid State Chemistry. 216: 65–72. Bibcode:2014JSSCh.216...65L. doi:10.1016/j.jssc.2014.05.002.
12. Yang, Xiao; Ren, Taohong; Zhu, Hongjin; Jia, Dingxian (2024-04-15). "Hydrazine-Assisted Synthesis, Structures, Photoelectricity, and Photocatalysis of Ternary Mercury–Tellurostannate Hybrids with Transition-Metal Complexes". Inorganic Chemistry. 63 (15): 6638–6648. doi:10.1021/acs.inorgchem.3c04400. ISSN 0020-1669. PMID 38556744.