Formation pathways of CH3SOH from CH3S(OH)CH3in the presence of O2: a theoretical study

Ab initio molecular orbital calculations with split-valence plus polarization basis sets and incorporating valenceelectron correlation have been performed to determine the equilibrium structure of ethyloxonium (I CH,CH,OH, 1 +) and examine its modes of unimolecular dissociation. An asymmetric struct

It is concluded that C3H80+' formed by dissociation of ionized 2ethoxyethanol ( ) is a mixture of CH,CH,OCHl' (7) and 'GH,+OHCH,CH, (2). Formation of 7 and CH3CH2+0HCH3 ( ) is attributed to dissociations of species formed by the hydrogen transfers [ CH,CH20CH2+ 'CH,OHI + [CH,CH,OCHi' CH,Ol -+ [CH,CH

## Photoionization mass spectrometry was used to investigate the dynamics of ion-neutral complex-mediated dissociations of the Iz-pentane ion (1). Reinterpretation of previous data demonstrates that a fraction of ions 1 isomerizes to the 2-methylbutane ion (2) through the complex [CHaCH+CHa'CH,CH,

Ab initio calculations at the [QCISD(T)/6-31 +G(Zdf, p)]//MP2/6-31G(d) level have been applied to CH$CH200, a radical which is thought to be important in the atmospheric oxidation of dimethylsulfide. The geometries of CH3SCH200 and the related CI-ISSCH20 radical are similar to other organic radicals

The detailed potential energy surface for the key atmospheric reaction of OH with CH 2 @CHCH(OH)CH 3 (3-buten-2-ol) has been investigated at the CCSD(T)/6-311++G(d,p)//MP2(full)/6-311++G(d,p) level. Various possible H-abstraction and addition-elimination pathways are identified. It is predicted that