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Quantum Chemistry
Dynamics of collision-induced energy transfer.
PubMed
Authors: Jiang B, Cheng C, Yang D, Guo H, Xie D, Shen X
Year
2025
Paper ID
960
Status
Peer-reviewed
Abstract Read
~2 min
Abstract Words
133
Citations
N/A
Abstract
Collisions are of fundamental importance in many relevant physico-chemical phenomena in the gas phase and at the gas-surface interface. Collision-induced energy transfer not only offers a sensitive probe of interatomic interactions, but also impacts an array of processes ranging from transport to reactivity. This perspective highlights some recent advances on collision-induced energy transfer dynamics. In the gas phase, cold collisions revealed remarkable quantum effects and stereodynamics of bimolecular inelastic scattering, which motivated development of new state-to-state quantum scattering methods. For surface processes, experiments of hydrogen atom scattering from various surfaces combined with first-principles molecular dynamics simulations shed valuable light on the relative importance of adiabatic energy transfer to surface phonons and nonadiabatic energy transfer to surface electrons. We outline further challenges in these fields and expect more fruitful interplay between experiment and theory.
Why This Paper Matters
- This paper contributes to the Quantum Chemistry research area in the Quantum Articles archive.
- It adds a 2025 reference point for readers tracking recent quantum research.
- Collisions are of fundamental importance in many relevant physico-chemical phenomena in the gas phase and at the gas-surface interface.
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