Structure and Bonding of the Hexameric Platinum(II) Dichloride, Pt6Cl12 (β-PtCl2)

The crystal structure of Pt6Cl12 (β‐PtCl2) was redetermined ($R \bar 3 m$ ah = 13.126Å, ch = 8.666Å, Z = 3; arh = 8.110Å, α = 108.04°; 367 hkl, R = 0.032). As has been shown earlier, the structure is in principle a hierarchical variant of the cubic structure type of tungsten (bcc), which atoms are r...

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Published in:Zeitschrift für anorganische und allgemeine Chemie (1950) 2003-03, Vol.629 (3), p.516-522
Main Authors: von Schnering, Hans Georg, Chang, Jen-Hui, Peters, Karl, Peters, Eva-Maria, Wagner, Frank R., Grin, Yuri, Thiele, Gerhard
Format: Article
Language:English
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Crystal structure
Electronic structure
Platinum
Platinum chloride
Pt6Cl12
Structure relationships
β-PtCl2
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container_title Zeitschrift für anorganische und allgemeine Chemie (1950)
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creator von Schnering, Hans Georg
Chang, Jen-Hui
Peters, Karl
Peters, Eva-Maria
Wagner, Frank R.
Grin, Yuri
Thiele, Gerhard
description The crystal structure of Pt6Cl12 (β‐PtCl2) was redetermined ($R \bar 3 m$ ah = 13.126Å, ch = 8.666Å, Z = 3; arh = 8.110Å, α = 108.04°; 367 hkl, R = 0.032). As has been shown earlier, the structure is in principle a hierarchical variant of the cubic structure type of tungsten (bcc), which atoms are replaced by the hexameric Pt6Cl12 molecules. Due to the 60° rotation of the cuboctahedral clusters about one of the trigonal axes, the symmetry is reduced from $Im \bar 3 m$ to $R \bar 3 m$ ($I \bar 3 m$). The molecule Pt6Cl12 shows the (trigonally elongated) structure of the classic M6X12 cluster compounds with (distorted) square‐planar PtCl4 fragments, however without metal‐metal bonds. The Pt atoms are shifted outside the Cl12 cuboctahedron by Δ = +0.046Å ($\bar {\rm d}$(Pt—Cl) = 2.315Å; $\bar {\rm d}$(Pt—Pt) = 3.339Å). The scalar relativistic DFT calculations results in the full $m \bar 3 m$ symmetry for the optimized structure of the isolated molecule with d(Pt—Cl) = 2.381Å, d(Pt—Pt) = 3.468Å and Δ = +0.072Å. The electron distribution of the Pt‐Pt antibonding HOMO exhibits an outwards‐directed asymmetry perpendicular to the PtCl4 fragments, that plays the decisive role for the cluster packing in the crystal. A comparative study of the Electron Localization Function with the hypothetical trans‐(Nb2Zr4)Cl12 molecule shows the distinct differences between Pt6Cl12 and clusters with metal‐metal bonding. Due to the characteristic electronic structure, the crystal structure of Pt6Cl12 in space group $R \bar 3 m$ is an optimal one, which results from comparison with rhombohedral Zr6I12 and a cubic bcc arrangement. Struktur und Bindung des hexameren Platin(II)‐Dichlorids, Pt6Cl12 (β‐PtCl2) Die Kristallstruktur von Pt6Cl12 (β‐PtCl2) wurde neu bestimmt ($R \bar 3 m$ ah = 13.126Å, ch = 8.666Å, Z = 3; arh = 8.110Å, α = 108.04°; 367 hkl, R = 0.032). Wie schon früher gezeigt, ist die Struktur im Prinzip eine hierarchische Variante des kubischen Wolframtyps (bcc), dessen Atome durch die hexameren Pt6Cl12‐Moleküle ersetzt sind. Wegen der 60°;‐Drehung der kuboktaedrischen Cluster um eine der trigonalen Achsen ist jedoch die Symmetrie von $Im \bar 3 m$ auf $R \bar 3 m$ ($I \bar 3 m$) reduziert. Das Pt6Cl12‐Molekül zeigt die (trigonal gestreckte) Struktur der klassischen M6X12‐Clusterverbindungen mit (verzerrten) planar‐quadratischen PtCl4‐Fragmenten, jedoch ohne Metall‐Metall‐Bindungen. Die Pt‐Atome liegen um Δ = +0.046Å außerhalb der Cl12‐Kuboktaeder ($\bar {\rm d}$(Pt—Cl) =
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As has been shown earlier, the structure is in principle a hierarchical variant of the cubic structure type of tungsten (bcc), which atoms are replaced by the hexameric Pt6Cl12 molecules. Due to the 60° rotation of the cuboctahedral clusters about one of the trigonal axes, the symmetry is reduced from $Im \bar 3 m$ to $R \bar 3 m$ ($I \bar 3 m$). The molecule Pt6Cl12 shows the (trigonally elongated) structure of the classic M6X12 cluster compounds with (distorted) square‐planar PtCl4 fragments, however without metal‐metal bonds. The Pt atoms are shifted outside the Cl12 cuboctahedron by Δ = +0.046Å ($\bar {\rm d}$(Pt—Cl) = 2.315Å; $\bar {\rm d}$(Pt—Pt) = 3.339Å). The scalar relativistic DFT calculations results in the full $m \bar 3 m$ symmetry for the optimized structure of the isolated molecule with d(Pt—Cl) = 2.381Å, d(Pt—Pt) = 3.468Å and Δ = +0.072Å. The electron distribution of the Pt‐Pt antibonding HOMO exhibits an outwards‐directed asymmetry perpendicular to the PtCl4 fragments, that plays the decisive role for the cluster packing in the crystal. A comparative study of the Electron Localization Function with the hypothetical trans‐(Nb2Zr4)Cl12 molecule shows the distinct differences between Pt6Cl12 and clusters with metal‐metal bonding. Due to the characteristic electronic structure, the crystal structure of Pt6Cl12 in space group $R \bar 3 m$ is an optimal one, which results from comparison with rhombohedral Zr6I12 and a cubic bcc arrangement. Struktur und Bindung des hexameren Platin(II)‐Dichlorids, Pt6Cl12 (β‐PtCl2) Die Kristallstruktur von Pt6Cl12 (β‐PtCl2) wurde neu bestimmt ($R \bar 3 m$ ah = 13.126Å, ch = 8.666Å, Z = 3; arh = 8.110Å, α = 108.04°; 367 hkl, R = 0.032). Wie schon früher gezeigt, ist die Struktur im Prinzip eine hierarchische Variante des kubischen Wolframtyps (bcc), dessen Atome durch die hexameren Pt6Cl12‐Moleküle ersetzt sind. Wegen der 60°;‐Drehung der kuboktaedrischen Cluster um eine der trigonalen Achsen ist jedoch die Symmetrie von $Im \bar 3 m$ auf $R \bar 3 m$ ($I \bar 3 m$) reduziert. Das Pt6Cl12‐Molekül zeigt die (trigonal gestreckte) Struktur der klassischen M6X12‐Clusterverbindungen mit (verzerrten) planar‐quadratischen PtCl4‐Fragmenten, jedoch ohne Metall‐Metall‐Bindungen. Die Pt‐Atome liegen um Δ = +0.046Å außerhalb der Cl12‐Kuboktaeder ($\bar {\rm d}$(Pt—Cl) = 2.315Å; $\bar {\rm d}$(Pt—Pt) = 3.339Å). Skalar‐relativistische DFT‐Rechnungen ergeben für das optimierte isolierte Molekül die vollständige $m \bar 3 m$‐Symmetrie mit d(Pt—Cl) = 2.381Å, d(Pt—Pt) = 3.468Å und Δ = +0.072Å. Die Elektronenverteilung zeigt eine auswärts gerichtete Asymmetrie in der Ausdehnung des (Pt‐Pt)‐antibindenden HOMO senkrecht zu den PtCl4‐Fragmenten, was für die Packung der Cluster im Kristall entscheidend ist. Vergleichende Untersuchungen der Elektronen‐Lokalisierungsfunktion für das hypothetische trans‐(Nb2Zr4)Cl12‐Molekül zeigen die gravierenden Unterschiede zwischen Pt6Cl12 und Clustern mit Metall‐Metall‐Bindungen. Wegen der charakteristischen Elektronenstruktur ist die Kristallstruktur von Pt6Cl12 in $R \bar 3 m$ optimal, wie ein Vergleich mit rhomboedrischem Zr6I12 und einer kubischen bcc‐Anordnung ergibt.</description><identifier>ISSN: 0044-2313</identifier><identifier>EISSN: 1521-3749</identifier><identifier>DOI: 10.1002/zaac.200390084</identifier><language>eng</language><publisher>Weinheim: WILEY-VCH Verlag</publisher><subject>Crystal structure ; Electronic structure ; Platinum ; Platinum chloride ; Pt6Cl12 ; Structure relationships ; β-PtCl2</subject><ispartof>Zeitschrift für anorganische und allgemeine Chemie (1950), 2003-03, Vol.629 (3), p.516-522</ispartof><rights>Copyright © 2003 WILEY‐VCH Verlag GmbH &amp; Co. KGaA, Weinheim</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,27924,27925</link.rule.ids></links><search><creatorcontrib>von Schnering, Hans Georg</creatorcontrib><creatorcontrib>Chang, Jen-Hui</creatorcontrib><creatorcontrib>Peters, Karl</creatorcontrib><creatorcontrib>Peters, Eva-Maria</creatorcontrib><creatorcontrib>Wagner, Frank R.</creatorcontrib><creatorcontrib>Grin, Yuri</creatorcontrib><creatorcontrib>Thiele, Gerhard</creatorcontrib><title>Structure and Bonding of the Hexameric Platinum(II) Dichloride, Pt6Cl12 (β-PtCl2)</title><title>Zeitschrift für anorganische und allgemeine Chemie (1950)</title><addtitle>Z. anorg. allg. Chem</addtitle><description>The crystal structure of Pt6Cl12 (β‐PtCl2) was redetermined ($R \bar 3 m$ ah = 13.126Å, ch = 8.666Å, Z = 3; arh = 8.110Å, α = 108.04°; 367 hkl, R = 0.032). As has been shown earlier, the structure is in principle a hierarchical variant of the cubic structure type of tungsten (bcc), which atoms are replaced by the hexameric Pt6Cl12 molecules. Due to the 60° rotation of the cuboctahedral clusters about one of the trigonal axes, the symmetry is reduced from $Im \bar 3 m$ to $R \bar 3 m$ ($I \bar 3 m$). The molecule Pt6Cl12 shows the (trigonally elongated) structure of the classic M6X12 cluster compounds with (distorted) square‐planar PtCl4 fragments, however without metal‐metal bonds. The Pt atoms are shifted outside the Cl12 cuboctahedron by Δ = +0.046Å ($\bar {\rm d}$(Pt—Cl) = 2.315Å; $\bar {\rm d}$(Pt—Pt) = 3.339Å). The scalar relativistic DFT calculations results in the full $m \bar 3 m$ symmetry for the optimized structure of the isolated molecule with d(Pt—Cl) = 2.381Å, d(Pt—Pt) = 3.468Å and Δ = +0.072Å. The electron distribution of the Pt‐Pt antibonding HOMO exhibits an outwards‐directed asymmetry perpendicular to the PtCl4 fragments, that plays the decisive role for the cluster packing in the crystal. A comparative study of the Electron Localization Function with the hypothetical trans‐(Nb2Zr4)Cl12 molecule shows the distinct differences between Pt6Cl12 and clusters with metal‐metal bonding. Due to the characteristic electronic structure, the crystal structure of Pt6Cl12 in space group $R \bar 3 m$ is an optimal one, which results from comparison with rhombohedral Zr6I12 and a cubic bcc arrangement. Struktur und Bindung des hexameren Platin(II)‐Dichlorids, Pt6Cl12 (β‐PtCl2) Die Kristallstruktur von Pt6Cl12 (β‐PtCl2) wurde neu bestimmt ($R \bar 3 m$ ah = 13.126Å, ch = 8.666Å, Z = 3; arh = 8.110Å, α = 108.04°; 367 hkl, R = 0.032). Wie schon früher gezeigt, ist die Struktur im Prinzip eine hierarchische Variante des kubischen Wolframtyps (bcc), dessen Atome durch die hexameren Pt6Cl12‐Moleküle ersetzt sind. Wegen der 60°;‐Drehung der kuboktaedrischen Cluster um eine der trigonalen Achsen ist jedoch die Symmetrie von $Im \bar 3 m$ auf $R \bar 3 m$ ($I \bar 3 m$) reduziert. Das Pt6Cl12‐Molekül zeigt die (trigonal gestreckte) Struktur der klassischen M6X12‐Clusterverbindungen mit (verzerrten) planar‐quadratischen PtCl4‐Fragmenten, jedoch ohne Metall‐Metall‐Bindungen. Die Pt‐Atome liegen um Δ = +0.046Å außerhalb der Cl12‐Kuboktaeder ($\bar {\rm d}$(Pt—Cl) = 2.315Å; $\bar {\rm d}$(Pt—Pt) = 3.339Å). Skalar‐relativistische DFT‐Rechnungen ergeben für das optimierte isolierte Molekül die vollständige $m \bar 3 m$‐Symmetrie mit d(Pt—Cl) = 2.381Å, d(Pt—Pt) = 3.468Å und Δ = +0.072Å. Die Elektronenverteilung zeigt eine auswärts gerichtete Asymmetrie in der Ausdehnung des (Pt‐Pt)‐antibindenden HOMO senkrecht zu den PtCl4‐Fragmenten, was für die Packung der Cluster im Kristall entscheidend ist. Vergleichende Untersuchungen der Elektronen‐Lokalisierungsfunktion für das hypothetische trans‐(Nb2Zr4)Cl12‐Molekül zeigen die gravierenden Unterschiede zwischen Pt6Cl12 und Clustern mit Metall‐Metall‐Bindungen. Wegen der charakteristischen Elektronenstruktur ist die Kristallstruktur von Pt6Cl12 in $R \bar 3 m$ optimal, wie ein Vergleich mit rhomboedrischem Zr6I12 und einer kubischen bcc‐Anordnung ergibt.</description><subject>Crystal structure</subject><subject>Electronic structure</subject><subject>Platinum</subject><subject>Platinum chloride</subject><subject>Pt6Cl12</subject><subject>Structure relationships</subject><subject>β-PtCl2</subject><issn>0044-2313</issn><issn>1521-3749</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2003</creationdate><recordtype>article</recordtype><recordid>eNo9kE9PwjAYhxujiYhePfcIicO3fbduPeKUQYJKFP_ES1O6VqpjmDEi-LH8IH4mJRhOv_wOz3N4CDll0GEA_PxLa9PhACgBknCPNFjEWYBxKPdJAyAMA44MD8nRYvEGAAyiqEHu7utqaeplZakuc3oxL3NfvtK5o_XU0r5d6ZmtvKGjQte-XM5ag0GbXnozLeaVz-0ZHdUiLRinrZ_vYFSnBW8fkwOni4U9-d8meehdjdN-MLzNBml3GHiEOAxiGzspXOQcR25xwo0RTuSIicbESZPIREYoOEjUyJ0wkWVorZgkdpIzFNgkcuv99IVdq4_Kz3S1VgzUJofa5FC7HOql2013748Ntqxf1Ha1Y3X1rkSMcaSebjJ1kT4-j7PsWvXwF6OIZEo</recordid><startdate>200303</startdate><enddate>200303</enddate><creator>von Schnering, Hans Georg</creator><creator>Chang, Jen-Hui</creator><creator>Peters, Karl</creator><creator>Peters, Eva-Maria</creator><creator>Wagner, Frank R.</creator><creator>Grin, Yuri</creator><creator>Thiele, Gerhard</creator><general>WILEY-VCH Verlag</general><general>WILEY‐VCH Verlag</general><scope>BSCLL</scope></search><sort><creationdate>200303</creationdate><title>Structure and Bonding of the Hexameric Platinum(II) Dichloride, Pt6Cl12 (β-PtCl2)</title><author>von Schnering, Hans Georg ; Chang, Jen-Hui ; Peters, Karl ; Peters, Eva-Maria ; Wagner, Frank R. ; Grin, Yuri ; Thiele, Gerhard</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-i3074-7e7f96f5ff232e3b2cc6f6d338a38f9c89895362093a32f6c5e13ee6b8ebd1363</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2003</creationdate><topic>Crystal structure</topic><topic>Electronic structure</topic><topic>Platinum</topic><topic>Platinum chloride</topic><topic>Pt6Cl12</topic><topic>Structure relationships</topic><topic>β-PtCl2</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>von Schnering, Hans Georg</creatorcontrib><creatorcontrib>Chang, Jen-Hui</creatorcontrib><creatorcontrib>Peters, Karl</creatorcontrib><creatorcontrib>Peters, Eva-Maria</creatorcontrib><creatorcontrib>Wagner, Frank R.</creatorcontrib><creatorcontrib>Grin, Yuri</creatorcontrib><creatorcontrib>Thiele, Gerhard</creatorcontrib><collection>Istex</collection><jtitle>Zeitschrift für anorganische und allgemeine Chemie (1950)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>von Schnering, Hans Georg</au><au>Chang, Jen-Hui</au><au>Peters, Karl</au><au>Peters, Eva-Maria</au><au>Wagner, Frank R.</au><au>Grin, Yuri</au><au>Thiele, Gerhard</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Structure and Bonding of the Hexameric Platinum(II) Dichloride, Pt6Cl12 (β-PtCl2)</atitle><jtitle>Zeitschrift für anorganische und allgemeine Chemie (1950)</jtitle><addtitle>Z. anorg. allg. Chem</addtitle><date>2003-03</date><risdate>2003</risdate><volume>629</volume><issue>3</issue><spage>516</spage><epage>522</epage><pages>516-522</pages><issn>0044-2313</issn><eissn>1521-3749</eissn><abstract>The crystal structure of Pt6Cl12 (β‐PtCl2) was redetermined ($R \bar 3 m$ ah = 13.126Å, ch = 8.666Å, Z = 3; arh = 8.110Å, α = 108.04°; 367 hkl, R = 0.032). As has been shown earlier, the structure is in principle a hierarchical variant of the cubic structure type of tungsten (bcc), which atoms are replaced by the hexameric Pt6Cl12 molecules. Due to the 60° rotation of the cuboctahedral clusters about one of the trigonal axes, the symmetry is reduced from $Im \bar 3 m$ to $R \bar 3 m$ ($I \bar 3 m$). The molecule Pt6Cl12 shows the (trigonally elongated) structure of the classic M6X12 cluster compounds with (distorted) square‐planar PtCl4 fragments, however without metal‐metal bonds. The Pt atoms are shifted outside the Cl12 cuboctahedron by Δ = +0.046Å ($\bar {\rm d}$(Pt—Cl) = 2.315Å; $\bar {\rm d}$(Pt—Pt) = 3.339Å). The scalar relativistic DFT calculations results in the full $m \bar 3 m$ symmetry for the optimized structure of the isolated molecule with d(Pt—Cl) = 2.381Å, d(Pt—Pt) = 3.468Å and Δ = +0.072Å. The electron distribution of the Pt‐Pt antibonding HOMO exhibits an outwards‐directed asymmetry perpendicular to the PtCl4 fragments, that plays the decisive role for the cluster packing in the crystal. A comparative study of the Electron Localization Function with the hypothetical trans‐(Nb2Zr4)Cl12 molecule shows the distinct differences between Pt6Cl12 and clusters with metal‐metal bonding. Due to the characteristic electronic structure, the crystal structure of Pt6Cl12 in space group $R \bar 3 m$ is an optimal one, which results from comparison with rhombohedral Zr6I12 and a cubic bcc arrangement. Struktur und Bindung des hexameren Platin(II)‐Dichlorids, Pt6Cl12 (β‐PtCl2) Die Kristallstruktur von Pt6Cl12 (β‐PtCl2) wurde neu bestimmt ($R \bar 3 m$ ah = 13.126Å, ch = 8.666Å, Z = 3; arh = 8.110Å, α = 108.04°; 367 hkl, R = 0.032). Wie schon früher gezeigt, ist die Struktur im Prinzip eine hierarchische Variante des kubischen Wolframtyps (bcc), dessen Atome durch die hexameren Pt6Cl12‐Moleküle ersetzt sind. Wegen der 60°;‐Drehung der kuboktaedrischen Cluster um eine der trigonalen Achsen ist jedoch die Symmetrie von $Im \bar 3 m$ auf $R \bar 3 m$ ($I \bar 3 m$) reduziert. Das Pt6Cl12‐Molekül zeigt die (trigonal gestreckte) Struktur der klassischen M6X12‐Clusterverbindungen mit (verzerrten) planar‐quadratischen PtCl4‐Fragmenten, jedoch ohne Metall‐Metall‐Bindungen. Die Pt‐Atome liegen um Δ = +0.046Å außerhalb der Cl12‐Kuboktaeder ($\bar {\rm d}$(Pt—Cl) = 2.315Å; $\bar {\rm d}$(Pt—Pt) = 3.339Å). Skalar‐relativistische DFT‐Rechnungen ergeben für das optimierte isolierte Molekül die vollständige $m \bar 3 m$‐Symmetrie mit d(Pt—Cl) = 2.381Å, d(Pt—Pt) = 3.468Å und Δ = +0.072Å. Die Elektronenverteilung zeigt eine auswärts gerichtete Asymmetrie in der Ausdehnung des (Pt‐Pt)‐antibindenden HOMO senkrecht zu den PtCl4‐Fragmenten, was für die Packung der Cluster im Kristall entscheidend ist. Vergleichende Untersuchungen der Elektronen‐Lokalisierungsfunktion für das hypothetische trans‐(Nb2Zr4)Cl12‐Molekül zeigen die gravierenden Unterschiede zwischen Pt6Cl12 und Clustern mit Metall‐Metall‐Bindungen. Wegen der charakteristischen Elektronenstruktur ist die Kristallstruktur von Pt6Cl12 in $R \bar 3 m$ optimal, wie ein Vergleich mit rhomboedrischem Zr6I12 und einer kubischen bcc‐Anordnung ergibt.</abstract><cop>Weinheim</cop><pub>WILEY-VCH Verlag</pub><doi>10.1002/zaac.200390084</doi><tpages>7</tpages></addata></record>
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subjects Crystal structure
Electronic structure
Platinum
Platinum chloride
Pt6Cl12
Structure relationships
β-PtCl2
title Structure and Bonding of the Hexameric Platinum(II) Dichloride, Pt6Cl12 (β-PtCl2)
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