1990
DOI: 10.1002/zaac.19905870104
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Synthese und Strukturuntersuchungen von Iodocupraten (I). XI. Die Kristallstruktur von Tl4Cu2I6

Abstract: Tetrathallium‐di‐μ‐iodo‐bis(diiodocuprat(I)) Tl4Cu2I6 kann durch Umsetzung von CuI mit TlI in der Schmelze oder durch Hydrothermalsynthese in konzentrierter, wäßriger HI hergestellt werden. Die Kristallstrukturaufklärung von Tl4Cu2I6 (orthorhombisch, Pnnm, a = 919,6(1), b = 955,2(2), c = 933,6(2) pm, Z = 2) ergab, daß die Verbindung zweikernige Anionen [Cu2I6]4− enthält, bei denen zwei CuI4‐Tetraeder über eine gemeinsame Kante verknüpft sind. Die Koordination des TlI mit I− entspricht der im gelben Thalliumiod… Show more

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Cited by 16 publications
(6 citation statements)
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“…It is instructive to compare the structure reported here with the structures of the two Cu 2 I 6 4- anions previously reported. The anion in [(py) 2 CH 2 ] 2 Cu 2 I 6 , where (py) 2 CH 2 2+ is the dipyridinemethane cation,6a has a geometry remarkably similar to the geometry of the Cu 2 Br 6 4- anion reported in this study. The bridging Cu−X−Cu angles are 86.67(3)° in the iodide salt, compared to 86.29(5)° for the Br salt.…”
Section: Discussionsupporting
confidence: 71%
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“…It is instructive to compare the structure reported here with the structures of the two Cu 2 I 6 4- anions previously reported. The anion in [(py) 2 CH 2 ] 2 Cu 2 I 6 , where (py) 2 CH 2 2+ is the dipyridinemethane cation,6a has a geometry remarkably similar to the geometry of the Cu 2 Br 6 4- anion reported in this study. The bridging Cu−X−Cu angles are 86.67(3)° in the iodide salt, compared to 86.29(5)° for the Br salt.…”
Section: Discussionsupporting
confidence: 71%
“…Similarly, the bridging geometry is asymmetric, with a difference of 0.169(2) Å compared to 0.239(3) Å in the Br salt. In contrast, the Cu 2 I 6 4- anions in Tl 4 Cu 2 I 6 have a very different structure,6b with symmetric bridges and very acute Cu−I−Cu angles of 60.77(4)°. This difference is presumably due to the difference in the nature of the electrostatic interactions and the hardness associated with the two different cations.…”
Section: Discussionmentioning
confidence: 98%
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“…On the other hand, copper(I) halocuprates display a wide variety in structures. These molecules form discrete geometries of varying nuclearity or polymeric extended systems . If organic radicals are introduced into the halocuprate cluster or network, interesting magnetic materials might be obtained.…”
Section: Introductionmentioning
confidence: 99%
“…TlAgI 2 , [9] InAgI 2 , [9] In 2 AgI 3 (isotypical to Tl 2 AgI 3 ), [9] and Tl 2 CuI 3 (dimers of edge-sharing [CuI 4 ] 3tetrahedra). [10] A special case is Tl 6 Ag 2 I 10 , which represents a polyiodide with [I 4 ] 2units and chains of interconnected [AgI 6 ] 5octahedra. [11] With respect to the binary halides AgX and TlX, there was no analogy expected, because these iodides crystallize in different structures with lower coordination numbers (α-AgI: wurtzite type, CN = 4; TlI, own type, CN = 7) than the corre-ARTICLE sponding isotypical chlorides and bromides (AgCl, AgBr: NaCl type, CN = 6; TlCl, TlBr: CsCl type, CN = 8).…”
Section: Introductionmentioning
confidence: 99%