Effect of solvent fluctuation on the electronic transitions of formaldehyde in aqueous solution

Abstract

The absorption spectra of nπ* and ππ* transitions in formaldehyde aqueous solution were studied by the reference interaction site model self-consistent-field (RISM-SCF) method. The electrostatic potential fluctuations acting on the solute sites originating from the solvent fluctuations were obtained by calculating the derivative of the solute-solvent radial distribution function analytically, and these were utilized to estimate the spectral bandwidths. The contribution from the solute vibrations was also examined. As a result, a blue shift of 1998 with bandwidth of 2987 cm−1 was obtained for the nπ* transition. The ππ* transition, on the other hand, showed a redshift of 1598 with the bandwidth of 5474 cm−1. The solvent fluctuation effect contributes to the bandwidths by 617 and 137 cm−1 for the nπ* and ππ* transition, respectively. We further analyzed the simulated absorption band shapes using effective charges on the atoms and the charge response kernel calculated for each state.