Open access
Datum
2022-04-14Typ
- Journal Article
Abstract
It is commonly believed that it is unfavorable for adsorbed H atoms on carbonaceous surfaces to form H2 without the help of incident H atoms. Using ring-polymer instanton theory to describe multidimensional tunnelling effects, combined with ab initio electronic structure calculations, we find that these quantum-mechanical simulations reveal a qualitatively different picture. Recombination of adsorbed H atoms, which was believed to be irrelevant at low temperature due to high barriers, is enabled by deep tunnelling, with reaction rates enhanced by tens of orders of magnitude. Furthermore, we identify a new path for H recombination that proceeds via multidimensional tunnelling but would have been predicted to be unfeasible by a simple one-dimensional description of the reaction. The results suggest that hydrogen molecule formation at low temperatures are rather fast processes that should not be ignored in experimental settings and natural environments with graphene, graphite, and other planar carbon segments. Mehr anzeigen
Persistenter Link
https://doi.org/10.3929/ethz-b-000541145Publikationsstatus
publishedExterne Links
Zeitschrift / Serie
The Journal of Physical Chemistry LettersBand
Seiten / Artikelnummer
Verlag
American Chemical SocietyOrganisationseinheit
09602 - Richardson, Jeremy / Richardson, Jeremy