Photoelectron spectra of acetone and acetone dimer

have heen photogmphetl uncier fairly high resolution and vibrational analyses carried out. The results indicate thnt the C(CO)C skeleton of the WXcited state of acetone is non-planar; CX~/:! calculations also substantiate this observation.

The proton-bound dimer of acetone Kinetic isotope effects (KIE) affect rates of ion-molecule reactions and provide access to important information on binding patterns of gaseous ions and neutral molecules and their reaction mechanisms. 1 Mass spectrometric techniques have been widely used to measure

## Abstract High‐ and low‐energy collision‐induced dissociation, and multi‐photon infrared dissociation spectra of the proton‐bound dimer of acetone all show the formation of protonated‐acetone and an acetone molecule as the only dissociation products. In the present paper evidence is presented tha

## Abstract Mass spectrometry‐based methods have been employed in order to study the reactions of non‐ (__h__~6~/__h__~6~), half (__d__~6~/__h__~6~), and fully (__d__~6~/__d__~6~) deuterium labeled protonated dimers of acetone in the gas phase. Neither kinetic nor thermodynamic isotope effects were