Sharon M. Palmer scite author profile

The conductivity of the linear-chain molecular-metal phthalocyanatonickel(II)iodide [Ni(pc)lj remains metallic down to -30 K, goes through a weak maximum, and then levels off to a high asymptotic ( T~0) value that varies from 2 to 2times the value at room temperature (-SOO Q 'cm '). The full characterization of this compound, reported here, includes a thermoelectric power linearly proportional to T, a Pauli-like static and EPR magnetic susceptibility, and single-crystal reflectivity spectra exhibiting a plasma edge for light polarized parallel to the conducting axis. The results confirm that this compound possesses all the characteristics of molecular metal that retains a metallic band structure down to a temperature below 2 K. However, Ni(pc)I does not possess any strong interstack interactions of the type necessary to suppress a Peierls metal-nonmetal transition via an increase in the dimensionality, and should be classified as one of the most onedimensional molecular metals studied to date. A structurally imposed weakening of the interstack Coulomb interactions, coupled with weak random potentials from structurally disordered triiodide chains, is apparently sufficient to suppress the three-dimensional transition normally associated with the tendency of an anisotropic conductor to undergo a Peierls distortion.

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Sharon M. Palmer

EXAFS studies of binuclear iron proteins: hemerythrin and ribonucleotide reductase

The (phthalocyaninato)copper iodide complex Cu(pc)I: a molecular metal with a one-dimensional array of local moments embedded in a "Fermi sea" of charge carriers

Preparation, structures, and physical properties of two products from the iodination of (phthalocyaninato)iron(II)

Nickel phthalocyanine iodide: A highly-one-dimensional low-temperature molecular metal

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