Confined single metal atoms in graphene-based materials have proven to be excellent catalysts for several reactions and promising gas sensing systems. However, whether the chemical activity arises from the specific type of metal atom or is a direct consequence of the confinement itself remains unclear.
CO Adsorption on a Single‐Atom Catalyst Stably Embedded in Graphene / Perilli, D., Chesnyak, V., Ugolotti, A., Panighel, M., Vigneri, S., Armillotta, F., Naderasli, P., Stredansky, M., Schied, M., Lacovig, P., Lizzit, S., Cepek, C., Comelli, G., Brune, H., Africh, C., Di Valentin, C.. - In: ANGEWANDTE CHEMIE. INTERNATIONAL EDITION. - ISSN 1433-7851. - 64/2025:11(2025), pp. e202421757.1-e202421757.10. [10.1002/anie.202421757]
CO Adsorption on a Single‐Atom Catalyst Stably Embedded in Graphene
Chesnyak, Valeria;Panighel, Mirco;Vigneri, Stefano;Armillotta, Francesco;Stredansky, Matus;Lacovig, Paolo;Comelli, Giovanni;Africh, Cristina
;Di Valentin, Cristiana
2025-01-01
Abstract
Confined single metal atoms in graphene-based materials have proven to be excellent catalysts for several reactions and promising gas sensing systems. However, whether the chemical activity arises from the specific type of metal atom or is a direct consequence of the confinement itself remains unclear.| File | Dimensione | Formato | |
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