About 30% of the world's primary energy consumption is in friction. The economic losses
caused by friction energy dissipation and wear account for about 2%–7% of its gross …

Great success has been achieved in the modeling of gas-surface elementary processes by
the use of the Born-Oppenheimer approximation. However, in metal surfaces low energy …

We review the state-of-the-art in the theory of dissociative chemisorption (DC) of small gas
phase molecules on metal surfaces, which is important to modeling heterogeneous catalysis …

Molecular adsorbates on metal surfaces exchange energy with substrate phonons and low-
lying electron-hole pair excitations. In the limit of weak coupling, electron-hole pair …

Electronic friction is a correction to the Born-Oppenheimer approximation, whereby nuclei in
motion experience a drag in the presence of a manifold of electronic states. The notion of …

The field of gas‐phase chemical dynamics has developed superb experimental methods to
probe the detailed outcome of gas‐phase chemical reactions. These experiments inspired …

An accurate description of nonadiabatic energy relaxation is crucial for modeling atomistic
dynamics at metal surfaces. Interfacial energy transfer due to electron-hole pair excitations …

While the ab initio molecular dynamics (AIMD) approach to gas–surface interaction has
been instrumental in exploring important issues such as energy transfer and reactivity, it is …

Nonadiabatic effects in chemical reaction at metal surfaces, due to excitation of electron–
hole pairs, stand at the frontier of the studies of gas-surface reaction dynamics. However, the …

Accurate description of nonadiabatic dynamics of molecules at metal surfaces involving
electron transfer has been a long-standing challenge for theory. Here, we tackle this …