Physical Properties of (NH4)2Pt(CN)4[Clo.42].3H2O: A new Quasi-One-Dimensional Conductor

Kim Carneiro, A. S. Petersen, A. E. Underhill, D. J. Wood, D. M. Watkins, Gordon A. Mackenzie

    Research output: Contribution to journalJournal articleResearchpeer-review

    Abstract

    The quasi-one-dimensional conductor (NH4)2[Pt(CN)4]Cl0.42·3H2O, ACP(Cl), has been studied experimentally by means of electrical conduction measurements, x-ray diffuse scattering, and neutron inelastic scattering. This allows the determination of all the physical parameters of interest for the theoretical description of the way, in which the Peierls instability manifests itself. ACP(Cl) appears as an analog of the well-studied isostructural compound K2[Pt(CN)4]Br0.3·3H2O, KCP(Br), with three major changes. First, an increased intrachain Pt-distance in ACP(Cl) causes the metallic conductivity σm to drop, and second, an increased Fermi wave vector kF introduces a change in the electron-phonon coupling constant λ via the bare phonon frequency ω(2kF). Third, the interchain coupling η is enhanced in ACP(Cl), which seems to be related to the hydrogen bonding of the NH4+ ions. We also present and discuss the frequency dependence of the conductivity at frequencies up to 1 MHz.
    Original languageEnglish
    JournalPhysical Review B
    Volume19
    Issue number12
    Pages (from-to)6279-6288
    ISSN2469-9950
    DOIs
    Publication statusPublished - 1979

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