1,2-Dilithioethylene Isomers and Their Mechanisms of Interconversion: an Ab Initio Study

The reaction of OH radicals with olefins is known to be important in atmospheric chemistry. From experimental data a global mechanism has been proposed, but the regioselectivity of the products is uncertain. In this work, the OH-propene-O 2 reaction has been studied with ab initio molecular orbital

Ab initio studies applying the 3-21G, 6-31G, and 6-31G\*\* basis sets and also including the MP2 correction were carried out on H NNH , HNNH , and the 2 2 3 transition state of the reaction H NNH HNNH . First, the geometries of molecules 2 2 3 were optimized using the theoretical methods mentioned

Solvolysis products of 3-azetidinyl chlorides, tosylates, and mesylates have been interpreted previously to indicate that these reactions proceed by azabicyclo[1.1.0]butyl cationic intermediates. Whether these cations are formed by direct ionization to 3-azetidinyl cations followed by collapse to th

Ab initio molecular dynamics at the RHFr3-21G level have been ## Ž . performed to study interconversion pathways bond rotation and ring inversion of the protonated ␤-ionone Schiff base. Starting with different stationary points on the Born᎐Oppenheimer potential energy surface, the trajectories ar