A study of the gas-phase reaction between protonated acetaldehyde and methanol

The ion-molecule reactions between protonated acetaldehyde and methanol were explored on a quadrupole, quistor, quadrupole tandem mass spectrometer. In addition to proton transfer to methanol and subsequent methanol ionmolecule chemistry, the protonated acetaldehyde-methanol adduct and methylated ac

Ab initio molecular orbital calculations at the MP2/6-31G\*//MP2/6-31G\* + ZPE level have been performed in order to explore the reaction between CH 3 OH 2 + and CH 3 OH. The detailed mechanism of proton transfer, CH 3 OH 2 + + CH 3 OH ® CH 3 OH + CH 3 OH 2 + , and of cationic nucleophilic substitut

## Abstract The gas‐phase reaction mechanism between methane and rhodium monoxide for the formation of methanol, syngas, formaldehyde, water, and methyl radical have been studied in detail on the doublet and quartet state potential energy surfaces at the CCSD(T)/6‐311+G(2d, 2p), SDD//B3LYP/6‐311+G(

The MNDO calculations of protonated polyfluoroknzenes [ Ph-F,] H+ indicate the possibility of a relatively free migration of the hydrogen proton with energy barriers of 125145 kJ mol-'. At a higher degree of substitution (n) the protonation of the ips0 carbon atom occupied by fluorine becomes energe