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一氧化碳诱导下 Pd-Fe3O4 模型催化剂中原子的烧结。

Carbon monoxide-induced adatom sintering in a Pd-Fe3O4 model catalyst.

机构信息

Institute of Applied Physics, Vienna University of Technology, Wiedner Hauptstrasse 8-10/134, 1040 Vienna, Austria.

出版信息

Nat Mater. 2013 Aug;12(8):724-8. doi: 10.1038/nmat3667. Epub 2013 Jun 9.

DOI:10.1038/nmat3667
PMID:23749267
Abstract

The coarsening of catalytically active metal clusters is often accelerated by the presence of gases, but the role played by gas molecules is difficult to ascertain and varies from system to system. We use scanning tunnelling microscopy to follow the CO-induced coalescence of Pd adatoms supported on the Fe3O4(001) surface at room temperature, and find Pd-carbonyl species to be responsible for mobility in this system. Once these reach a critical density, clusters nucleate; subsequent coarsening occurs through cluster diffusion and coalescence. Whereas CO induces the mobility in the Pd/Fe3O4 system, surface hydroxyls have the opposite effect. Pd atoms transported to surface OH groups are no longer susceptible to carbonyl formation and remain isolated. Following the evolution from well-dispersed metal adatoms into clusters, atom-by-atom, allows identification of the key processes that underlie gas-induced mass transport.

摘要

催化活性金属团簇的粗化通常会被气体加速,但气体分子所起的作用很难确定,而且因系统而异。我们使用扫描隧道显微镜在室温下跟踪 CO 诱导的负载在 Fe3O4(001)表面上的 Pd 原子的团聚,发现 Pd-羰基物种是该体系中迁移的原因。一旦这些物种达到临界密度,团簇就会成核;随后的粗化通过团簇扩散和团聚来实现。虽然 CO 在 Pd/Fe3O4 体系中诱导了迁移,但表面羟基则产生相反的效果。被输送到表面 OH 基团的 Pd 原子不再容易形成羰基,并且保持孤立。原子级的从高度分散的金属原子到团簇的演变,使得我们能够识别出气体诱导质量传输的关键过程。

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