1985
DOI: 10.1139/v85-065
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Syntheses and X-ray structural analyses of [(C6H5)4As][Sn(EC6H5)3], E = S and Se

Abstract: Stannous chloride, in solutions containing at least three mole equivalents of NaEC6H5, E = S and Se, forms triligated anions which crystallize readily as the tetraphenylarsonium salts, [(C6H5)4As[Sn(SC6H5)3], 1, and [(C6H5)4As][Sn(SeC6H5)3], 2. The crystals so formed are isomorphous, and their structures have been determined by single crystal X-ray diffractometry techniques. The salts crystallize in the monoclinic space group P21/c, with four formula units in unit cells of dimensions a = 10.760(1), b = 17.515(… Show more

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Cited by 26 publications
(11 citation statements)
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“…Interestingly, Sn(3) is surrounded by only three S atoms to form a trigonal pyramidal SnS 3 unit. This geometry is an indication for Sn(II) and the bond valence calculations confirm this assignment as well as the mixed-valent character of (DBNH) 2 [43] and C 42 H 35 PSnS 3 . [44] In these compounds the Sn-S bond lengths are in the range of 2.532(10) to 2.765(2) Å and the S-Sn-S angles scatter from 83.59 (2) (Fig.…”
Section: Resultssupporting
confidence: 69%
See 1 more Smart Citation
“…Interestingly, Sn(3) is surrounded by only three S atoms to form a trigonal pyramidal SnS 3 unit. This geometry is an indication for Sn(II) and the bond valence calculations confirm this assignment as well as the mixed-valent character of (DBNH) 2 [43] and C 42 H 35 PSnS 3 . [44] In these compounds the Sn-S bond lengths are in the range of 2.532(10) to 2.765(2) Å and the S-Sn-S angles scatter from 83.59 (2) (Fig.…”
Section: Resultssupporting
confidence: 69%
“…The Sn–S bond lengths in the SnS 3 pyramid are 2.5059(13), 2.5335(16) and 2.5511(17) Å (average Sn–S distance: 2.5302 Å), with the corresponding angles being 88.02(4), 88.62(4) and 102.39(6)°. The existence of Sn in a trigonal pyramidal environment is quite rare, but some examples of compounds in which this occurs are Ottemannite [Sn(SnS 3 )],41 C 25 H 27 NO 3 SnS 3 ,42 C 42 H 35 AsSnS 3 ,43 and C 42 H 35 PSnS 3 44. In these compounds the Sn–S bond lengths range from 2.532(10) to 2.765(2) Å, and the S–Sn–S angles scatter from 83.59(2) to 96.87(3)°.…”
Section: Resultsmentioning
confidence: 99%
“…Two of the Sn–Se distances [Sn(1)–Se(1): 266.87(8), Sn(1)–Se(2): 267.57(7), Sn(2)–Se(3): 268.32(7), Sn(2)–Se(4): 267.37(8) pm] are distinctly smaller than the “secondary” Sn–Se contacts [Sn(1)–Se(3) 291.45(7), Sn(2)–Se(2) 298.02(7), Sn(1)′–Se(4) 321.80(7), Sn(2)–Se(1)′ 310.73(7) pm]. The shorter Sn–Se distances are similar to those found in AsPh 4 [Sn(SePh) 3 ] (264.9–267.0 pm)21 and [Yb(C 4 H 8 O) 6 ][Sn(SePh) 3 ] 2 (262.9–268.5) 22. Therefore the crystal structure of 2 consists of Sn(SePh) 2 units [Se–Sn–Se angles: Se(1)–Sn(1)–Se(2) 88.15(3), Se(4)–Sn(2)–Se(3) 82.37(3)] which are linked by four additional weaker selenium to tin donor‐acceptor bonds in order to form one dimensional chains.…”
Section: Resultssupporting
confidence: 62%
“…The Sn–Br distance of 2.6286(3) Å ( 4 ) is shorter than the corresponding distance in intramolecularly N→Sn coordinated [Sn{CH(SiMe 3 )C 9 H 6 N‐8}Br] (2.679(1) Å),8 whereas the Sn–I distance of 2.8544(3) ( 5 ) Å is longer than the corresponding distance reported for [Sn(I){C 6 H 3 ‐2,6‐Trip 2 }] (2.766(2) Å)1l with the tin atom of the latter being two‐coordinate. The Sn(1)–S(1) bond length in compound 6 of 2.512(1) Å resembles the corresponding Sn–S distances of 2.532–2.552 Å in the trithiophenolato stannates [Ph 4 E][Sn(SPh) 3 ] (E = P,16 As17a).…”
Section: Resultsmentioning
confidence: 76%