Solvent and ion pairing effects on the reaction entropy for the electroreduction of aromatic molecules

A pronounced solvent viscosity and polarity dependence of the magnetic field effect was found for polymethylene-linked radical ion pairs generated by photoinduced intramolecular electron transfer in compounds of the type pyrene-(CH\*),-N,N-dimethylaniline, with n = 7-16. This is interpreted in terms

The re3son.s for the necessity of n moditir;ltion of Germer's method for incorporating the solrent effect into the haniltonhn arc ertplJined\_ The rolvation st,!blliz.nion of the systrms F-, HF, L? and N\_Ndimethylfornumide is calculated.

## Abstract Salt effects on the reactions [Fe(CN)~6~]^4−^ + S~2~O^=^~8~ and [Ru(NH~3~)~5~py]^2+^ + S~2~O have been studied in media of different dielectric constants constituted by mixtures of water with organic cosolvents. It is known that salt and solvent effects are coupled and, consequently, ca

The moderately exotherrnic ion-molecule reaction O+ t Hz and its isotopic variants have been the subject of several dynamical studies in our group. In this work we report an extensive quasiclassical trajectory study on the dynamics of this system at different initial relative energies considering a

Using 2 + 1 multipho ton ionization, NH; is prepared in sclcctcd levels of the "2 bending mode (v = O-7) and the NH:(u) + Da reaction is studied as a function of the center-of-mass collision energy (l-10 eV). The exchange channel (NH2D\*+ HD or H + D) is enhanced by ion vibrational ehcitation wherex