Multi-Orbital Molecular Compound (TTM-TTP)I3: Effective Model and Fragment Decomposition

The electronic structure of the molecular compound (TTM-TTP)I 3 , which exhibits a peculiar intra-molecular charge ordering, has been studied using multi-configuration ab initio calculations. First we derive an effective Hubbard-type model based on the molecular orbitals (MOs) of TTM-TTP; we set up...

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Bibliographic Details
Published in:Journal of the Physical Society of Japan 2011-01, Vol.80 (1), p.013703-013703-4
Main Authors: Tsuchiizu, Masahisa, Omori, Yukiko, Suzumura, Yoshikazu, Bonnet, Marie-Laure, Robert, Vincent, Ishibashi, Shoji, Seo, Hitoshi
Format: Article
Language:English
Subjects:
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Electron density of states and band structure of crystalline solids
Electron states
Exact sciences and technology
Physics
Polymers and organic compounds
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Summary:The electronic structure of the molecular compound (TTM-TTP)I 3 , which exhibits a peculiar intra-molecular charge ordering, has been studied using multi-configuration ab initio calculations. First we derive an effective Hubbard-type model based on the molecular orbitals (MOs) of TTM-TTP; we set up a two-orbital Hamiltonian for the two MOs near the Fermi energy and determine its full parameters: the transfer integrals, the Coulomb and exchange interactions. The tight-binding band structure obtained from these transfer integrals is consistent with the result of the direct band calculation based on density functional theory. Then, by decomposing the frontier MOs into two parts, i.e., fragments, we find that the stacked TTM-TTP molecules can be described by a two-leg ladder model, while the inter-fragment Coulomb energies are scaled to the inverse of their distances. This result indicates that the fragment picture that we proposed earlier [M.-L. Bonnet et al. : J. Chem. Phys. 132 (2010) 214705] successfully describes the low-energy properties of this compound.
ISSN:0031-9015
1347-4073
DOI:10.1143/JPSJ.80.013703