Charge Transfer Interactions of p-Azoxyanisole Complexes for Electrooptical Activity

Ch. Ravi Shankar Kumar1,*,, S. Deepthi2 and Anjali Jha3

1Department of Physics, Institute of Science, GITAM University, Visakhapatnam-530045, India

2Department of Physics, Lendi Institute of Engineering & Technology, Visakhapatnam-535005, India

3Department of Chemistry, Institute of Science, GITAM University, Visakhapatnam-530045, India

*Corresponding author: E-mail:


In particular interactions due to organic-inorganic molecules results self assembled structures organize supramolecular structures for molecular, electronic and electrooptical properties. Supramolecular structures originated are complexes with organic (p-azoxyanisole) molecule, synthesized with metal nanoparticles (iron, copper and aluminium.) Spectroscopic studies interpret infrared spectra with wavenumbers of characteristic bands in assigned regions; wavenumbers with reduced intensity in Raman spectra attribute metal-organic framework with charge transfer. Designed frame work with dense participation of carriers interpret electron correlation and exchange interaction specifying molecular, electronic and electrooptical properties with Gaussian package using electron density method. Deterministic procedure attribute vital role of charge transfer interactions responsible in formation of complex with improvement in properties responsible for electrooptical activity.


p-Azoxyanisole, Nanoparticles, FMO Contours, Polarization, Electrooptical properties.

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