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Literature DB >> 20499981

Greatly enhanced adsorption and catalytic activity of Au and Pt clusters on defective graphene.

Miao Zhou¹, Aihua Zhang, Zhenxiang Dai, Chun Zhang, Yuan Ping Feng.

Abstract

We report an investigation on CO oxidation catalyzed by Au(8) or Pt(4) clusters on defective graphene using first-principles approach based on density functional theory. The simplest single-carbon-vacancy defect on graphene was found to play an essential role in the catalyzed chemical reaction of CO oxidation. When supported on a defect-free graphene sheet, the reaction barrier of CO oxidation catalyzed by Au(8) (Pt(4)) clusters was estimated to be around 3.0 eV (0.5 eV), and when adsorbed on defective graphene, the reaction barrier was greatly reduced to around 0.2 eV (0.13 eV).

Entities: Chemical

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Year: 2010 PMID： 20499981 DOI： 10.1063/1.3427246

Source DB: PubMed Journal: J Chem Phys ISSN： 0021-9606 Impact factor: 3.488

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Cited

4 in total

Greatly enhanced adsorption and catalytic activity of Au and Pt clusters on defective graphene.

1. On the Catalytic Activity of Pt Supported by Graphyne in the Oxidation of Ethanol.

2. Greatly Enhancing Catalytic Activity of Graphene by Doping the Underlying Metal Substrate.

3. Platinum clusters on vacancy-type defects of nanometer-sized graphene patches.

4. Platinum single-atom adsorption on graphene: a density functional theory study.