Synthesis, Supramolecular Self-Organization, and Thermal Behavior of the Double Three-Dimensional Pseudo-Polymer Complex [Au{S2CN(CH2)6}2]4[Ag5Cl9] Comprising the New Type Silver(I) Anion

Synthesis, Supramolecular Self-Organization, and Thermal Behavior of the Double Three-Dimensional Pseudo-Polymer Complex [Au{S2CN(CH2)6}2]4[Ag5Cl9] Comprising the New Type Silver(I) Anion

New crystalline pseudo-polymer complex [Au{S 2 CN(CH 2 ) 6 } 2 ] 4 [Ag 5 Cl 9 ] ( I ) was obtained by binding gold(III) with silver(I) hexamethylenedithiocarbamate from an AuCl 3 /2.5 M NaCl solution. Complex I was isolated in a preparative yield and structurally characterized. The X-ray diffraction...

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Veröffentlicht in:Russian journal of coordination chemistry 2024, Vol.50 (1), p.21-32
Hauptverfasser: Korneeva, E. V., Loseva, O. V., Smolentsev, A. I., Ivanov, A. V.
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Anions
Chemistry
Chemistry and Materials Science
Hydrogen bonds
Inorganic Chemistry
Physical Chemistry
Polymers
Silver
Thermal analysis
Thermodynamic properties
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Loseva, O. V.
Smolentsev, A. I.
Ivanov, A. V.
description New crystalline pseudo-polymer complex [Au{S 2 CN(CH 2 ) 6 } 2 ] 4 [Ag 5 Cl 9 ] ( I ) was obtained by binding gold(III) with silver(I) hexamethylenedithiocarbamate from an AuCl 3 /2.5 M NaCl solution. Complex I was isolated in a preparative yield and structurally characterized. The X-ray diffraction (XRD) data (CIF file CCDC no. 2205197) show that the isomeric cations of [Au{S 2 CN(CH 2 ) 6 } 2 ] + ( A : 2 B : C ) and complicated pentanuclear anion [Ag 5 Cl 9 ] 4– are the main structural units of the compound. The supramolecular self-organization of the ionic structural units in complex I occurs due to multiple secondary interactions Cl···S and Ag···S, hydrogen bonds C–H···Cl, and anagostic interactions C–H···Ag, resulting in the formation of the 3D pseudo-polymer framework. The thermal behavior of complex I is studied by simultaneous thermal analysis to find that the thermolysis of the double Au(III)–Ag(I) compound is accompanied by the quantitative regeneration of the bound metals under comparatively mild conditions.
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subjects Anions
Chemistry
Chemistry and Materials Science
Hydrogen bonds
Inorganic Chemistry
Physical Chemistry
Polymers
Silver
Thermal analysis
Thermodynamic properties
title Synthesis, Supramolecular Self-Organization, and Thermal Behavior of the Double Three-Dimensional Pseudo-Polymer Complex [Au{S2CN(CH2)6}2]4[Ag5Cl9] Comprising the New Type Silver(I) Anion
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