Standardless spectrochemical analysis and direct simulations of time resoved spectra of polyatomic molecules, isomers and mixtures

The efficient method for calculation of dynamical time-resolved vibronic spectra of polyatomic molecules is proposed. It allows to perform direct real-time computer simulations of such spectra for models of complex compounds, isomers and multicomponent mixtures with quantum beats and non-radiative vibrational relaxation taken into account. The examples of calculated spectra show the ways of how to search and select optimal experimental conditions and retrieve the most informative data for solution of inverse spectral problems in different situations. The new method of standardless analysis based on timeresolved vibronic spectroscopy has been developed and its main ideas are presented here. This method is able to solve quantitative and qualitative spectrochemical problems for individual substances and multicomponent mixtures (even for species with similar optical properties) with the use of experimentally measured relative intensities of dynamical spectra only. The algorithms of how to perform analysis in various experimental conditions are proposed. q 2003 Elsevier Science B.V. All rights reserved.