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Self-activated surface dynamics in gold catalysts under reaction environments.


ABSTRACT: Nanoporous gold (NPG) with sponge-like structures has been studied by atomic-scale and microsecond-resolution environmental transmission electron microscopy (ETEM) combined with ab initio energy calculations. Peculiar surface dynamics were found in the reaction environment for the oxidation of CO at room temperature, involving residual silver in the NPG leaves as well as gold and oxygen atoms, especially on {110} facets. The NPG is thus classified as a novel self-activating catalyst. The essential structure unit for catalytic activity was identified as Au-AgO surface clusters, implying that the NPG is regarded as a nano-structured silver oxide catalyst supported on the matrix of NPG, or an inverse catalyst of a supported gold nanoparticulate (AuNP) catalyst. Hence, the catalytically active structure in the gold catalysts (supported AuNP and NPG catalysts) can now be experimentally unified in low-temperature CO oxidation, a step forward towards elucidating the fascinating catalysis mechanism of gold.

SUBMITTER: Kamiuchi N 

PROVIDER: S-EPMC5970267 | biostudies-literature | 2018 May

REPOSITORIES: biostudies-literature

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Self-activated surface dynamics in gold catalysts under reaction environments.

Kamiuchi Naoto N   Sun Keju K   Aso Ryotaro R   Tane Masakazu M   Tamaoka Takehiro T   Yoshida Hideto H   Takeda Seiji S  

Nature communications 20180525 1


Nanoporous gold (NPG) with sponge-like structures has been studied by atomic-scale and microsecond-resolution environmental transmission electron microscopy (ETEM) combined with ab initio energy calculations. Peculiar surface dynamics were found in the reaction environment for the oxidation of CO at room temperature, involving residual silver in the NPG leaves as well as gold and oxygen atoms, especially on {110} facets. The NPG is thus classified as a novel self-activating catalyst. The essenti  ...[more]

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