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Molecular electronic structure of metal phthalocyanines
Author(s) -
Mathur S. C.,
Singh Jai
Publication year - 1972
Publication title -
international journal of quantum chemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.484
H-Index - 105
eISSN - 1097-461X
pISSN - 0020-7608
DOI - 10.1002/qua.560060105
Subject(s) - molecular orbital , metal , molecule , phthalocyanine , chemistry , metal k edge , valence (chemistry) , atomic physics , ionization , ionization energy , atom (system on chip) , coulomb , valence electron , electronic structure , charge (physics) , electron , transition metal , computational chemistry , ion , physics , biochemistry , organic chemistry , quantum mechanics , computer science , embedded system , catalysis
The molecular–electronic structure of the metal phthalocyanines (Fe, Co, Ni and Cu) has been determined by the molecular orbital treatment. Coulomb integrals of the metal atom occurring in the secular determinants have been approximated equivalent to the valence state ionization energy (VSIE) of a metal orbital for a particular charge configuration. The calculated π‐electron charge densities have been found to be higher on the nitrogen atoms as compared to the other atoms in the molecule. This is in agreement with the e.s.r. studies of the metal phthalocyanines. To test the correctness of the molecular orbital calculations, the π‐π* transitions (14,000 cm −1 − 30000 cm −1 ), d‐d * transitions (20000 cm −1 − 60000 cm −1 ) and charge transfer transitions (15000 cm −1 − 30000 cm −1 ) have been calculated in the metal phthalocyanine molecules. The calculated frequencies have been compared with the observed ones and found in fair agreement.