Pt sub-nano/nanoclusters stabilized at the edge of nanographene sheets and their catalytic performance

Takaaki Tomai; Yuji Kawaguchi; Satoshi Mitani; Itaru Honma

doi:10.1016/j.electacta.2013.01.067

Pt sub-nano/nanoclusters stabilized at the edge of nanographene sheets and their catalytic performance

Takaaki Tomai, Yuji Kawaguchi, Satoshi Mitani, Itaru Honma

Tohoku University

Research output: Contribution to journal › Article › peer-review

11 Citations (Scopus)

Abstract

In this study, the liquid phase reduction technique was used on nanographene oxide sheets (<100 nm), followed by vapor phase reduction of the Pt complex, and we obtained precisely size-controlled Pt nanoclusters with a narrow size distribution on the nanographene sheets with a relatively large surface area. The average sizes of Pt nanocluster were controlled from 1.1 to 2.4 nm by varying initial concentration of Pt complex. Moreover, the Pt sub-nano/nanoclusters mainly attached to the edge of the nanographene sheets and showed superior catalytic performance for electrochemical methanol oxidation.

Original language	English
Pages (from-to)	421-426
Number of pages	6
Journal	Electrochimica Acta
Volume	92
DOIs	https://doi.org/10.1016/j.electacta.2013.01.067
Publication status	Published - 2013 Mar 1

Keywords

Edge state
Graphene
Methanol oxidation reaction (MOR)
Pt-nanocluster

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10.1016/j.electacta.2013.01.067

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title = "Pt sub-nano/nanoclusters stabilized at the edge of nanographene sheets and their catalytic performance",

abstract = "In this study, the liquid phase reduction technique was used on nanographene oxide sheets (<100 nm), followed by vapor phase reduction of the Pt complex, and we obtained precisely size-controlled Pt nanoclusters with a narrow size distribution on the nanographene sheets with a relatively large surface area. The average sizes of Pt nanocluster were controlled from 1.1 to 2.4 nm by varying initial concentration of Pt complex. Moreover, the Pt sub-nano/nanoclusters mainly attached to the edge of the nanographene sheets and showed superior catalytic performance for electrochemical methanol oxidation.",

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T1 - Pt sub-nano/nanoclusters stabilized at the edge of nanographene sheets and their catalytic performance

AU - Tomai, Takaaki

AU - Kawaguchi, Yuji

AU - Mitani, Satoshi

AU - Honma, Itaru

PY - 2013/3/1

Y1 - 2013/3/1

N2 - In this study, the liquid phase reduction technique was used on nanographene oxide sheets (<100 nm), followed by vapor phase reduction of the Pt complex, and we obtained precisely size-controlled Pt nanoclusters with a narrow size distribution on the nanographene sheets with a relatively large surface area. The average sizes of Pt nanocluster were controlled from 1.1 to 2.4 nm by varying initial concentration of Pt complex. Moreover, the Pt sub-nano/nanoclusters mainly attached to the edge of the nanographene sheets and showed superior catalytic performance for electrochemical methanol oxidation.

AB - In this study, the liquid phase reduction technique was used on nanographene oxide sheets (<100 nm), followed by vapor phase reduction of the Pt complex, and we obtained precisely size-controlled Pt nanoclusters with a narrow size distribution on the nanographene sheets with a relatively large surface area. The average sizes of Pt nanocluster were controlled from 1.1 to 2.4 nm by varying initial concentration of Pt complex. Moreover, the Pt sub-nano/nanoclusters mainly attached to the edge of the nanographene sheets and showed superior catalytic performance for electrochemical methanol oxidation.

KW - Edge state

KW - Graphene

KW - Methanol oxidation reaction (MOR)

KW - Pt-nanocluster

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SP - 421

EP - 426

JO - Electrochimica Acta

JF - Electrochimica Acta

ER -

Pt sub-nano/nanoclusters stabilized at the edge of nanographene sheets and their catalytic performance

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Keywords

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