Theoretical study on the CH3NgF species

## Abstract The multiple‐channel reactions Br + CH~3~SCH~3~ → products are investigated by direct dynamics method. The optimized geometries, frequencies, and minimum energy path are all obtained at the MP2/6‐31+G(d,p) level, and energetic information is further refined by the G3(MP2) (single‐point)

## Abstract The multiple‐channel reactions OH + CH~3~NHC(O)OCH~3~ → products are investigated by direct dynamics method. The optimized geometries, frequencies, and minimum energy path are all obtained at the MP2/6‐311+G(d,p) level, and energetic information is further refined by the BMC‐CCSD (singl

DFT) calculations M06-2X functional a b s t r a c t The RXeXeR 0 species were investigated at the MP2, M06-2X, and B3LYP levels of theory. The stability of these species predicted by the M06-2X functional is the same as that predicted by the B3LYP functional but differs considerably from that predi

Theoretical investigations are carried out on the multiple-channel reactions, CH 3 þ SiH(CH 3 ) 3 ! products and CF 3 þ SiH(CH 3 ) 3 ! products. The minimum energy paths (MEP) are calculated at the MP2/6-311 þ G(d,p) level, and energetic information is further refined by the MC-QCISD (single point)

## Abstract The multiple‐channel reactions SiH~3~ + SiH(CH~3~)~3~ → products are investigated by direct dynamics method. The minimum energy path (MEP) is calculated at the MP2/6‐31+G(d,p) level, and energetic information is further refined by the MC‐QCISD (single‐point) method. The rate constants f