Ion imaging experiments and direct chemical dynamics simulations were performed to study the atomic-level dynamics for the X- + CH3I SN2 nucleophilic substitution reaction.[1] The simulations reproduce the product ene...
Ion imaging experiments and direct chemical dynamics simulations were performed to study the atomic-level dynamics for the X- + CH3I SN2 nucleophilic substitution reaction.[1] The simulations reproduce the product energy partitionings and the velocity scattering angle distribution measured in the *** simulations reveal a previously unknown roundabout reaction mechanism involving CH3 rotation.
Ion imaging experiments and direct chemical dynamics simulations were performed to study the atomic-level dynamics for the X-+CH3I SN2 nucleophilic substitution reaction.[1]The simulations reproduce the product energy...
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Ion imaging experiments and direct chemical dynamics simulations were performed to study the atomic-level dynamics for the X-+CH3I SN2 nucleophilic substitution reaction.[1]The simulations reproduce the product energy partitionings and the velocity scattering angle distribution measured in the *** simulations reveal a previously unknown
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