Taiki Koketsu scite author profile

Abstract:Recently, it has been reported that the morphology of Au nanoparticles (NPs) affects the catalytic activity of CO oxidation; twin crystal NPs show higher activity for CO oxidation than single-crystal NPs. In this study, density functional calculations have been carried out to investigate the morphology effect of Au NPs using CO as a probe molecule. In the case of Au NPs with a size of more than 2 nm, CO adsorption energy on the Au NPs is mainly determined by a coordination number (CN) of adsorption sites. CO binding to a multiple twin NP with a size of about 1 nm is stronger than that on a single-crystal NP with the same size. A simple CN explanation cannot be applied to the enhancement of CO binding to the small multiple twin NP. This enhancement is related to a deformation of the NP structure before and after CO adsorption. It is suggested that the multiple twin NP with a size of less than 1 nm, which shows the deformation upon CO adsorption, contributes to the higher activity for CO oxidation.

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Taiki Koketsu

Atomic-scale insight into the structural effect of a supported Au catalyst based on a size-distribution analysis using Cs-STEM and morphological image-processing

Low-Energy Consumption RSFQ Circuits Driven by Low Voltages

Preparation of TiO₂-supported twinned gold nanoparticles by CO treatment and their CO oxidation activity

A Theoretical Insight into Enhanced Catalytic Activity of Au by Multiple Twin Nanoparticles

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Taiki Koketsu

Atomic-scale insight into the structural effect of a supported Au catalyst based on a size-distribution analysis using Cs-STEM and morphological image-processing

Low-Energy Consumption RSFQ Circuits Driven by Low Voltages

Preparation of TiO2-supported twinned gold nanoparticles by CO treatment and their CO oxidation activity

A Theoretical Insight into Enhanced Catalytic Activity of Au by Multiple Twin Nanoparticles

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Product

Resources

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Preparation of TiO₂-supported twinned gold nanoparticles by CO treatment and their CO oxidation activity