Directions of chemical change: experimental characterization of the stereodynamics of photodissociation and reactive processes-Reference-Cited by-同舟云学术

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Directions of chemical change: experimental characterization of the stereodynamics of photodissociation and reactive processes

Published:2014 Issue:21 Volume:16 Page:9776
ISSN:1463-9076
Container-title:Physical Chemistry Chemical Physics
language:en
Short-container-title:Phys. Chem. Chem. Phys.

Author:

Kasai Toshio,Che Dock-Chil,Okada Michio,Tsai Po-Yu,Lin King-Chuen,Palazzetti Federico,Aquilanti Vincenzo

Publisher

Royal Society of Chemistry (RSC)

Subject

Physical and Theoretical Chemistry,General Physics and Astronomy

Link

http://pubs.rsc.org/en/content/articlepdf/2014/CP/C4CP00464G

Reference141 articles.

1. Orienting and aligning molecules for stereochemistry and photodynamics

2. Interaction of rotationally aligned and of oriented molecules in gas phase and at surfaces

3. A Direct Dynamics Trajectory Study of F- + CH3OOH Reactive Collisions Reveals a Major Non-IRC Reaction Path

4. Reaction Products with Internal Energy beyond the Kinematic Limit Result from Trajectories Far from the Minimum Energy Path: An Example from H + HBr → H2 + Br

5. A S N 2 Reaction That Avoids Its Deep Potential Energy Minimum

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1. Concerted stereodynamics of chemical changes: The branching selectivity in the photodissociation of asymmetric‐top molecules, formic acid, and the cold reactivity of the H + H₂ exchange reaction;Journal of the Chinese Chemical Society;2023-05-07

2. Pattern analysis of the impact‐parameter dependent trajectories for the H + H ₂ exchange reaction at T = 3 and 300 K : A characteristic propensity for reactive versus nonreactive trajectories found in the time‐dependent interaction potential and a roaming‐like libration motion at cold temperature;Journal of the Chinese Chemical Society;2022-04

3. Chemical Reaction Kinetics and Dynamics Re-Considered: Exploring Quantum Stereodynamics—From Line to Plane Reaction Pathways and Concerted Interactions;Quantum Science;2022

4. Photodissociation dynamics of CO-forming channel of methyl formate at 193 nm: a computational study;Molecular Physics;2021-09-14

5. Nucleophilic substitution vs elimination reaction of bisulfide ions with substituted methanes: exploration of chiral selectivity by stereodirectional first-principles dynamics and transition state theory;Journal of Molecular Modeling;2019-07-17

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