Platinum nanoparticle clusters immobilized on multiwalled carbon nanotubes: Electrodeposition and enhanced electrocatalytic activity for methanol oxidation

Yue Zhao; Louzhen Fan; Haizheng Zhong; Yongfang Li; Shihe Yang

doi:10.1002/adfm.200600416

Platinum nanoparticle clusters immobilized on multiwalled carbon nanotubes: Electrodeposition and enhanced electrocatalytic activity for methanol oxidation

Yue Zhao^*, Louzhen Fan, Haizheng Zhong, Yongfang Li, Shihe Yang

^*Corresponding author for this work

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

149 Citations (Scopus)

Abstract

3D flowerlike Pt nanoparticle clusters are electrodeposited onto multiwalled carbon nanotubes (MWCNTs) by using a three-step protocol, which is all-electrochemical and involves a key, second step of a potential pulse sequence. This 3D fractal morphology is in marked contrast to the 2D uniform nanoparticle dispersion of MWCNTs, which is achieved when the second step adopts cyclic voltammetry instead of a potential-step method. The former is found to exhibit significantly higher electrocatalytic activity and better stability than the latter for oxidation of methanol. These attractive features are attributable to the unique 3D flowerlike structure of Pt nanoparticle clusters on MWCNTs with much higher electrochemically active surface areas. Our work points to a new path for the preparation of 3D Pt/MWCNT nanocomposites, which are promising as electrocatalysts in direct methanol fuel cells.

Original language	English
Pages (from-to)	1537-1541
Number of pages	5
Journal	Advanced Functional Materials
Volume	17
Issue number	9
DOIs	https://doi.org/10.1002/adfm.200600416
Publication status	Published - 18 Jun 2007
Externally published	Yes

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abstract = "3D flowerlike Pt nanoparticle clusters are electrodeposited onto multiwalled carbon nanotubes (MWCNTs) by using a three-step protocol, which is all-electrochemical and involves a key, second step of a potential pulse sequence. This 3D fractal morphology is in marked contrast to the 2D uniform nanoparticle dispersion of MWCNTs, which is achieved when the second step adopts cyclic voltammetry instead of a potential-step method. The former is found to exhibit significantly higher electrocatalytic activity and better stability than the latter for oxidation of methanol. These attractive features are attributable to the unique 3D flowerlike structure of Pt nanoparticle clusters on MWCNTs with much higher electrochemically active surface areas. Our work points to a new path for the preparation of 3D Pt/MWCNT nanocomposites, which are promising as electrocatalysts in direct methanol fuel cells.",

author = "Yue Zhao and Louzhen Fan and Haizheng Zhong and Yongfang Li and Shihe Yang",

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T1 - Platinum nanoparticle clusters immobilized on multiwalled carbon nanotubes

T2 - Electrodeposition and enhanced electrocatalytic activity for methanol oxidation

AU - Zhao, Yue

AU - Fan, Louzhen

AU - Zhong, Haizheng

AU - Li, Yongfang

AU - Yang, Shihe

PY - 2007/6/18

Y1 - 2007/6/18

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AB - 3D flowerlike Pt nanoparticle clusters are electrodeposited onto multiwalled carbon nanotubes (MWCNTs) by using a three-step protocol, which is all-electrochemical and involves a key, second step of a potential pulse sequence. This 3D fractal morphology is in marked contrast to the 2D uniform nanoparticle dispersion of MWCNTs, which is achieved when the second step adopts cyclic voltammetry instead of a potential-step method. The former is found to exhibit significantly higher electrocatalytic activity and better stability than the latter for oxidation of methanol. These attractive features are attributable to the unique 3D flowerlike structure of Pt nanoparticle clusters on MWCNTs with much higher electrochemically active surface areas. Our work points to a new path for the preparation of 3D Pt/MWCNT nanocomposites, which are promising as electrocatalysts in direct methanol fuel cells.

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Platinum nanoparticle clusters immobilized on multiwalled carbon nanotubes: Electrodeposition and enhanced electrocatalytic activity for methanol oxidation

Abstract

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