Importance of intermolecular hydrogen. cntdot. hydrogen and

Dong-Kyun Seo, Jingqing Ren, and Myung-Hwan Whangbo , Enric Canadell ... Kim R. Dunbar , Pascale Auban-Senzier , Claude Pasquier , Claude Coulon...
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J . Am. Chem. SOC.1987, 109, 90-94

Importance of Intermolecular Hydrogen-*Hydrogen and Hydrogen-Anion Contacts for the Lattice Softness, the Electron-Phonon Coupling, and the Superconducting Transition Temperatures, Tc, of Organic Conducting Salts P-(ET),X (X- = IBr2-, Au12-, 13-) Myung-Hwan Whangbo,*+ Jack M. Williams,*t Arthur J. Schultz,' Thomas J. Emge,f and Mark A. Benot Contribution from the Department of Chemistry, North Carolina State Uniuersity, Raleigh, North Carolina 27695-8204, and the Chemistry and Materials Science Dicisions, Argonne National Laboratory, Argonne, Illinois 60439. Receiued July 16, 1986 Abstract: On the basis of the crystal structures of P-(ET),X (X- = IBr,-, AuIY, 13J determined at low temperature under ambient and applied pressure, we examined the structural factors responsible for the occurrence of the structural modulation in P-(ET),I, under ambient pressure, its disappearance under pressure greater than -0.5 kbar, and its effect on the superconducting transition temperature T, and the dependence of T, on anion X- in P-(ET),X. ET is an abbreviation for BEDT-TTF, i.e., bis(ethy1enedithio)tetrathiafulvalene. The electron-phonon coupling constants, A, calculated for P-(ET),X on the basis of the McMillan equation suggest that the lattice softness with respect to translational and/or librational modes of vibration increases in the order P-(ET),13 < P-(ET),IBr, < P-(ET),AuI, < P*-(ET),13, where P*-(ET),13 refers to the P-(ET)*I3salt under an applied pressure greater than -0.5 kbar with T, E 8 K. An explanation for this trend in the lattice softness is based on the observation that the principal forces providing the overall lattice cohesiveness of the P-(ET),X salts are attractive Coulombic interactions of oxidized ET molecule layers with anion X- layers and that each anion X- of P-(ET),X is enclosed in a hydrogen pocket made up of the ethylene groups of ET molecules, which leads to short intermolecular hydrogen-hydrogen (H-H) and hydrogen-anion (He-X-) contacts. Thus, ET molecules are anchored around anions, X-, through short H-X- contacts, so that the softness of the ET molecules with respect to translational and/or librational modes of vibration can be correlated with the lengths of their shortest H-H and H-.X- contacts. Such short contacts, which depend sensitively upon the nature and size of the anion X-, also govern whether the two ethylene groups of an ET are eclipsed or staggered in conformation, when viewed along the long molecular axis of an ET. For the ions X- = IBr2- and A d 2 - , both of which are smaller than I