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Molecular orbital analysis of frontier orbitals for molecular electronics: a case study of unimolecular rectifier and photovoltaic cell

✍ Scribed by Hiroshi Mizuseki; Rodion V. Belosludov; Amir A. Farajian; Nobuaki Igarashi; Jian-Tao Wang; Hao Chen; Chiranjib Majumder; Shigeyuki Miura; Yoshiyuki Kawazoe

Publisher
Institute of Physics and National Institute of Materials Science
Year
2003
Tongue
English
Weight
481 KB
Volume
4
Category
Article
ISSN
1468-6996

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✦ Synopsis

Recently, unimolecular devices have attracted significant attention as a 'post-silicon technology' to enable the fabrication of future nanoscale electronic devices. In this paper, we describe a candidate molecule for a rectifier function using porphyrin polymer and a photovoltaic cell using fullerene-based supramolecule. We have investigated the geometric and electronic structure of these organic molecules using an ab initio quantum mechanical calculation. These results for the porphyrin polymers show that the localization of the unoccupied orbital state on the acceptor moiety mostly depends on their structures. The calculated results for the electronic structure of a naphthalocyanine -fullerene supramolecule manifest that the HOMO's were localized on the donor sub-unit and the LUMO's were localized on the acceptor sub-unit.

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## Spm-p&rilcd .md non-spin-polarized molecular-orbital US Xa calculations have been performed for the radical PO:-. -I1 P .md "0 nugnctic h\ perfinc tensors are determined together with the spin densities in the different orbirals of these ## IN~I AIIUI~L Thrw rccults are m good .qreement \\it