Evidence of the Chemical Uniaxial Strain Effect on Electrical Conductivity in the Spin-Crossover Conducting Molecular System: [FeIII(qnal)2][Pd(dmit)2]5·Acetone

Evidence of the Chemical Uniaxial Strain Effect on Electrical Conductivity in the Spin-Crossover Conducting Molecular System: [FeIII(qnal)2][Pd(dmit)2]5·Acetone

A novel spin-crossover molecular conductor, [Fe(qnal)2][Pd(dmit)2]5·acetone, was prepared and characterized. The crystal structural analyses of both the low- and high-temperature phases revealed that the supramolecular π−π interactions between the spin-crossover Fe(qnal)2 cations as well as the cati...

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Veröffentlicht in:Journal of the American Chemical Society 2008-05, Vol.130 (21), p.6688-6689
Hauptverfasser: Takahashi, Kazuyuki, Cui, Heng-Bo, Okano, Yoshinori, Kobayashi, Hayao, Mori, Hatsumi, Tajima, Hiroyuki, Einaga, Yasuaki, Sato, Osamu
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Sprache:eng
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Zusammenfassung:A novel spin-crossover molecular conductor, [Fe(qnal)2][Pd(dmit)2]5·acetone, was prepared and characterized. The crystal structural analyses of both the low- and high-temperature phases revealed that the supramolecular π−π interactions between the spin-crossover Fe(qnal)2 cations as well as the cation contraction play an important role in the uniaxial lattice deformation which will modulate the electrical conductivity of the conducting Pd(dmit)2 layer.
ISSN:0002-7863
1520-5126
DOI:10.1021/ja801585r