Tuning of superfine electron-nuclear interaction in structure of the ground states and the characteristics of the full systems electronic excited states for formation of effective phothophysics and spectral-energy of properties in the series of multinuclear compounds

A. E. Obukhov

doi:10.1117/12.916695

10 May 2012 Tuning of superfine electron-nuclear interaction in structure of the ground states and the characteristics of the full systems electronic excited states for formation of effective phothophysics and spectral-energy of properties in the series of multinuclear compounds

A. E. Obukhov

Author Affiliations +

Proceedings Volume 8435, Organic Photonics V; 84351J (2012) https://doi.org/10.1117/12.916695
Event: SPIE Photonics Europe, 2012, Brussels, Belgium

Abstract

The help of the measurements (the methods are the NMR ¹H and ¹³C, infrared (IR) and the UV-absorption, Raman scattering of light, the fluorescence and the phosphorescence, the pumping of the lasers and lamps, the low-temperature of the spectroscopy in the solutions (77 K) and the Jet-spectroscopy of vapor (2,6 K) and others) and the calculations with application of the developed new complex of the computer of the programs realizing of the quantum-chemical LCAO-MO SCF extended-CI INDO / S of methods are investigated of the photophysical properties of some news and also some known the organic compounds for variations of the electronic and the spatial structures in the series is the mono-, bi-, three, penta- and quincli-cyclic and the bi- and the bis- phenyl, furyl- and tienyl- oxazoles and - oxadiazoles have been studied of the spectroscopy properties in the wavelength range max λ ^max _abs,osc = 208 ÷ 760 nm.

Citation Download Citation

A. E. Obukhov "Tuning of superfine electron-nuclear interaction in structure of the ground states and the characteristics of the full systems electronic excited states for formation of effective phothophysics and spectral-energy of properties in the series of multinuclear compounds", Proc. SPIE 8435, Organic Photonics V, 84351J (10 May 2012); https://doi.org/10.1117/12.916695

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