Electrical conductivities of tetrakis(alkylthio)tetrathiafulvalene(TTCn-TTF) and tetrakis(alkyltelluro)tetrathiafulvalene(TTeCn-TTF).
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概要
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Electrical conductivities have been measured for TTC<I><SUB>n</SUB></I>–TTF and TTeC<I><SUB>n</SUB></I>–TTF. In the case of TTC<I><SUB>n</SUB></I>–TTF, the compounds with short alkyl chains (<I>n</I>=1–3) show the high resistivities above 10<SUP>10</SUP> Ω cm, while the resistivities of the compounds with long alkyl chains (<I>n≥</I>4) decrease to 10<SUP>5</SUP>–10<SUP>7</SUP> Ω cm. The relatively low resistivities of the compounds with long alkyl chains are attributed to the considerable reduction in intermolecular distance between adjacent TTF skeletons caused by intermolecular interactions through alkyl chain groups taking into account the results of their crystal structures, thermal properties and densities. As for TTeC<I><SUB>n</SUB></I>–TTF compounds, the carbon number dependence of resistivity is almost similar to that of TTC<I><SUB>n</SUB></I>–TTF in the range of large <I>n</I> (<I>n≥</I>8). Exceptionally, TTeC<SUB>1</SUB>–TTF exhibits noticeably low resistivity of 6.9×10<SUP>4</SUP> Ω cm. X-Ray diffraction study confirms that the high conductivity of TTeC<SUB>1</SUB>–TTF is caused by the formation of zigzag Te chains due to the presence of strong intermolecular Te–Te atomic contacts.
著者
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Inokuchi Hiroo
Institute For Molecular Science
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IMAEDA Kenichi
Institute for Molecular Science
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Enoki Toshiaki
Institute For Molecular Science
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Yamochi Hideki
The Institute for Solid State Physics, The University of Tokyo
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Saito Gunzi
The Institute for Solid State Physics, The University of Tokyo
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Wu Peiji
Institute for Molecular Science
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Shi Zurong
Institute for Molecular Science
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Okada Naoko
The Institute for Solid State Physics, The University of Tokyo
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Saito Gunzi
The Institute for Molecular Science
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