Promoted activity of annealed Rh nanoclusters on thin films of Al2O3/NiAl(100) in the dehydrogenation of Methanol-d4

Ting-Chieh Hung; Ting-Wei Liao; Guan-Jr Liao; Zhen-He Liao; Po-Wei Hsu; Yu-Ling Lai; Yao-Jane Hsu; Chia-Hsin Wang; Yaw-Wen Yang; Jeng-Han Wang; Meng-Fan Luo

doi:10.1039/d1ra04066a

Promoted activity of annealed Rh nanoclusters on thin films of Al₂O₃/NiAl(100) in the dehydrogenation of Methanol-d₄

RSC Adv. 2021 Jul 15;11(40):24762-24771. doi: 10.1039/d1ra04066a. eCollection 2021 Jul 13.

Authors

Affiliations

¹ Department of Physics, National Central University 300 Jhongda Road, Jhongli District Taoyuan 32001 Taiwan mfl28@phy.ncu.edu.tw.
² National Synchrotron Radiation Research Center 101 Hsin-Ann Road, Hsinchu Science Park Hsinchu 30076 Taiwan.
³ Department of Chemistry, National Taiwan Normal University No. 88, Sec. 4, Ting-Zhou Road Taipei 11677 Taiwan.

Abstract

Annealed Rh nanoclusters on an ordered thin film of Al₂O₃/NiAl(100) were shown to exhibit a promoted reactivity toward the decomposition of methanol-d₄, under both ultrahigh vacuum and near-ambient-pressure conditions. The Rh clusters were grown with vapor deposition onto the Al₂O₃/NiAl(100) surface at 300 K and annealed to 700 K. The decomposition of methanol-d₄ proceeded only through dehydrogenation, with CO and deuterium as products, on Rh clusters both as prepared and annealed. Nevertheless, the catalytic reactivity of the annealed clusters, measured with the production of either CO or deuterium per surface Rh site from the reaction, became at least 2-3 times that of the as-prepared ones. The promoted reactivity results from an altered support effect associated with an annealing-induced mass transport at the surface. Our results demonstrate a possibility to practically prepare reactive Rh clusters, regardless of the cluster size, that can tolerate an elevated reaction temperature, with no decreased reactivity.