The proton affinity of C3 and heat of formation of C3H+

The equilibrium for proton transfer involving acetone and ketene (CH$OCHsH++ CH2CO -CH$O++ CHsCOCH3) has been studied in a pulsed ion cyclotron resonance spectrometer. Vtiues of 193.6 r I and 194.1 c 1 kcal/mole (1 kcal/mole = 4.18 kjoules) are obtained for the proton affinities of acetone and keten

Ab initio molecular calculations carried out at the UQCISD (T ) /6-3 1 1 + + G ( 3df, 2p) and RCCSD (T ) /cc-pVTZ levels have been used to re-examine the heats of formation of the [C, Hs, N] +' radical cations and related species. The following values have been obtained: AH&s8 (H&NH) +' = 1046+ 10 k

The initial rates of formation of the major products in the thermal reactions of ethylene at temperatures in the neighborhood of 800 K have been measured in the presence and absence of the additives neopentane and ethane. It has been shown that in the absence of the additive the main initiation proc

The proton affinities of H$iO-, H&OH, H,SiOSiH9, and H$iOAlHF are predicted from ab initio molecular orbital theory using the recently developed GAUSSIAN-l (GI ) theory for computing accurate molecular energies. The calculated proton affmities (PA,,) are 356.0, 177.4, 179.0, and 302.4 kcal/mol, resp

The inversion barriers and proton affinities for trimethyl-and triphenyl-phosphine have been calculated using large basis set single-determinant ab initio calculations. The estimated inversion barrier for trimetbylphosphine was calculated to be 47.5 kcal/ mol, while the corresponding barrier in trip

From the mass-analysed ion kinetic energy spectra of labelled ions, kinetic energy releases and thermodynamic data, it is proved that protonated n-propylbenzene (1) isomerizes into protonated isopropylbenzene (2). It is also shown that the dissociation of the less energetic metastable ions of (2), l