The M(dddt)2 family of conducting complexes: [Ni(dddt)2]3(AuBr2)2, the first quasi-two-dimensional metal stable down to at least 1.3 K

Lyudmila A. Kushch; Viktor V. Gritsenko; Lev I. Buravov; Anna G. Khomenko; Gennadii V. Shilov; Oleg A. Dyachenko; Vladimir A. Merzhanov; Eduard B. Yagubskii; Roger Rousseau; Enric Canadell

doi:10.1039/JM9950501633

The M(dddt)₂ family of conducting complexes: [Ni(dddt)₂]₃(AuBr₂)₂, the first quasi-two-dimensional metal stable down to at least 1.3 K

Lyudmila A. Kushch, Viktor V. Gritsenko, Lev I. Buravov, Anna G. Khomenko, Gennadii V. Shilov, Oleg A. Dyachenko, Vladimir A. Merzhanov, Eduard B. Yagubskii, Roger Rousseau and Enric Canadell

Abstract

The first stable molecular metal, [Ni(dddt)₂]₃(AuBr₂)₂, among the M(dddt)₂ family of conducting charge-transfer salts has been prepared and its crystal structure has been solved by X-ray analysis. The origin of the metallic conductivity of [Ni(dddt)₂]₃(AuBr₂)₂ as well as the stability of this salt with respect to metal-to-insulator transitions is explained on the basis of tight-binding band structure calculations.

This article is part of the themed collection: Molecular Conductors

Journal of Materials Chemistry

The M(dddt)₂ family of conducting complexes: [Ni(dddt)₂]₃(AuBr₂)₂, the first quasi-two-dimensional metal stable down to at least 1.3 K

Abstract

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The M(dddt)₂ family of conducting complexes: [Ni(dddt)₂]₃(AuBr₂)₂, the first quasi-two-dimensional metal stable down to at least 1.3 K

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