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1. Structural Properties of the Superconducting Salt (BEDT-TTF)3Cl2·(H2O)2 at Low Temperatures

Author

Daniel Chasseau, Sylvie Hébrard-Bracchetti, Peter Day, J. Gaultier, Yvette Barrans, C.J. Kepert, Mohamedally Kurmoo, Philippe Guionneau, and Laurent Ducasse

Subjects

Superconductivity, Condensed matter physics, Stereochemistry, Crystal structure, Condensed Matter Physics, Thermal expansion, Electronic, Optical and Magnetic Materials, Inorganic Chemistry, chemistry.chemical_compound, chemistry, Electrical resistivity and conductivity, Materials Chemistry, Ceramics and Composites, Physical and Theoretical Chemistry, Metal–insulator transition, Anisotropy, Tetrathiafulvalene, Ambient pressure

Abstract

The X-ray crystal structure of (BEDT-TTF)3Cl2·(H2O)2 [BEDT-TTF=bis(ethylenedithio)tetrathiafulvalene] has been determined at 190, 130, and 10 K. The broad metal–insulator transition (100–160 K) observed in the resistivity data at ambient pressure, and the pressure induced superconductivity (Tc=5 K at 1.2 GPa) can be associated with temperature-dependent motion of the molecules within the unit cell and charge redistribution among the three independent BEDT-TTF molecules. The motion can be considered as a dimerization of the BEDT-TTF along the a-axis. The thermal expansion tensor in the range 12 to 295 K is anisotropic and reveals no sharp anomaly. The system remains two dimensional at all temperatures, in agreement with the electrical conductivity measurements.

Published

1999