Aligned nanoporous Pt-Cu bimetallic microwires with high catalytic activity toward methanol electrooxidation

H. J. Qiu; X. Shen; J. Q. Wang; A. Hirata; T. Fujita; Y. Wang; M. W. Chen

doi:10.1021/acscatal.5b00073

Aligned nanoporous Pt-Cu bimetallic microwires with high catalytic activity toward methanol electrooxidation

H. J. Qiu, X. Shen, J. Q. Wang, A. Hirata, T. Fujita, Y. Wang, M. W. Chen

Advanced Institute for Materials Research (AIMR)

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

109 Citations (Scopus)

Abstract

We report a simple approach to fabricate aligned bimetallic Pt-Cu microwires with a three-dimensional nanoporous structure, tunable composition, and high catalytic activity by dealloying a dilute Pt₃Cu₉₇ precursor. Each microwire possesses inherent ultrafine nanoporous structure with uniformly distributed Pt-Cu alloy ligaments and nanopores with a dimension of ∼2 nm. Electrochemical measurements manifest that the nanoporous Pt-Cu microwires have significantly enhanced electrocatalytic activities compared with a commercial Pt/C nanoparticulate catalyst. With evident advantages of facile preparation and enhanced catalytic performance together with low material costs, the nanoporous Pt-Cu microwires hold great promise as a high-performance catalyst for electrochemical energy conversion.

Original language	English
Pages (from-to)	3779-3785
Number of pages	7
Journal	ACS Catalysis
Volume	5
Issue number	6
DOIs	https://doi.org/10.1021/acscatal.5b00073
Publication status	Published - 2015 Jun 5

Keywords

bimetallic Pt catalysts
core/shell structure
dealloying
electrocatalysts
fuel cells
methanol oxidation
nanoporous metals

ASJC Scopus subject areas

Catalysis
Chemistry(all)

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10.1021/acscatal.5b00073

Cite this

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title = "Aligned nanoporous Pt-Cu bimetallic microwires with high catalytic activity toward methanol electrooxidation",

abstract = "We report a simple approach to fabricate aligned bimetallic Pt-Cu microwires with a three-dimensional nanoporous structure, tunable composition, and high catalytic activity by dealloying a dilute Pt3Cu97 precursor. Each microwire possesses inherent ultrafine nanoporous structure with uniformly distributed Pt-Cu alloy ligaments and nanopores with a dimension of ∼2 nm. Electrochemical measurements manifest that the nanoporous Pt-Cu microwires have significantly enhanced electrocatalytic activities compared with a commercial Pt/C nanoparticulate catalyst. With evident advantages of facile preparation and enhanced catalytic performance together with low material costs, the nanoporous Pt-Cu microwires hold great promise as a high-performance catalyst for electrochemical energy conversion.",

keywords = "bimetallic Pt catalysts, core/shell structure, dealloying, electrocatalysts, fuel cells, methanol oxidation, nanoporous metals",

author = "Qiu, {H. J.} and X. Shen and Wang, {J. Q.} and A. Hirata and T. Fujita and Y. Wang and Chen, {M. W.}",

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T1 - Aligned nanoporous Pt-Cu bimetallic microwires with high catalytic activity toward methanol electrooxidation

AU - Qiu, H. J.

AU - Shen, X.

AU - Wang, J. Q.

AU - Hirata, A.

AU - Fujita, T.

AU - Wang, Y.

AU - Chen, M. W.

PY - 2015/6/5

Y1 - 2015/6/5

N2 - We report a simple approach to fabricate aligned bimetallic Pt-Cu microwires with a three-dimensional nanoporous structure, tunable composition, and high catalytic activity by dealloying a dilute Pt3Cu97 precursor. Each microwire possesses inherent ultrafine nanoporous structure with uniformly distributed Pt-Cu alloy ligaments and nanopores with a dimension of ∼2 nm. Electrochemical measurements manifest that the nanoporous Pt-Cu microwires have significantly enhanced electrocatalytic activities compared with a commercial Pt/C nanoparticulate catalyst. With evident advantages of facile preparation and enhanced catalytic performance together with low material costs, the nanoporous Pt-Cu microwires hold great promise as a high-performance catalyst for electrochemical energy conversion.

AB - We report a simple approach to fabricate aligned bimetallic Pt-Cu microwires with a three-dimensional nanoporous structure, tunable composition, and high catalytic activity by dealloying a dilute Pt3Cu97 precursor. Each microwire possesses inherent ultrafine nanoporous structure with uniformly distributed Pt-Cu alloy ligaments and nanopores with a dimension of ∼2 nm. Electrochemical measurements manifest that the nanoporous Pt-Cu microwires have significantly enhanced electrocatalytic activities compared with a commercial Pt/C nanoparticulate catalyst. With evident advantages of facile preparation and enhanced catalytic performance together with low material costs, the nanoporous Pt-Cu microwires hold great promise as a high-performance catalyst for electrochemical energy conversion.

KW - bimetallic Pt catalysts

KW - core/shell structure

KW - dealloying

KW - electrocatalysts

KW - fuel cells

KW - methanol oxidation

KW - nanoporous metals

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Aligned nanoporous Pt-Cu bimetallic microwires with high catalytic activity toward methanol electrooxidation

Abstract

Keywords

ASJC Scopus subject areas

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