Details

Autor(en) / Beteiligte

• Kovalskii, Andrey M.
• Volkov, Ilia N.
• Evdokimenko, Nikolay D.
• Tkachenko, Olga P.
• Leybo, Denis V.
• Chepkasov, Ilya V.
• Popov, Zakhar I.
• Matveev, Andrei T.
• Manakhov, Anton
• Permyakova, Elizaveta S.
• Konopatsky, Anton S.
• Kustov, Alexander L.
• Golberg, Dmitri V.
• Shtansky, Dmitry V.

Titel

Hexagonal BN- and BNO-supported Au and Pt nanocatalysts in carbon monoxide oxidation and carbon dioxide hydrogenation reactions

Ist Teil von

• Applied catalysis. B, Environmental, 2022-04, Vol.303, p.120891, Article 120891

Ort / Verlag

Amsterdam: Elsevier B.V

Erscheinungsjahr

2022

Quelle

Access via ScienceDirect (Elsevier)

Beschreibungen/Notizen

• Environmental protection requires solving the problem of utilization and reduction of CO and CO2 emissions. Herein, Au/h-BN(O) and Pt/h-BN(O) nanohybrids are thoroughly analyzed in CO oxidation and CO2 hydrogenation reactions. The nanohybrids differ in catalytic particle size and particle distribution. The particles are smaller (1–6 nm) and display a narrower size distribution in the case of Pt-based nanomaterials. The Pt/h-BN(O) nanohybrids exhibit high catalytic activity in CO conversion and carbon dioxide hydrogenation reactions. For both systems, the oxidative state of BN support affects the catalytic activity. The possible catalytic reaction mechanisms are proposed based on DFT calculations. A charge density distribution at the Pt/h-BN interface increases oxygen absorption, thereby accelerating oxygen-associated chemical reactions. [Display omitted] •Au/h-BN(O) and Pt/h-BN(O) nanohybrids are studied in CO oxidation and CO2 hydrogenation reactions•Pt/h-BN(O) exhibits high catalytic activity in CO conversion and CO2 hydrogenation•BNO-based catalysts show higher activity compared to their oxygen-free counterparts•DFT calculations indicate that Pt-BN interactions affect oxygen and hydrogen molecule absorptions