Composition Tunability and (111)-Dominant Facets of Ultrathin Platinum-Gold Alloy Nanowires toward Enhanced Electrocatalysis

Journal of the American Chemical Society

Volumn 138, Issue 37, 2016, Pages 12166-12175

  Chang, Fangfang ^a,b   Shan, Shiyao ^a   Petkov, Valeri ^c   Skeete, Zakiya ^a   Lu, Aolin ^a   Ravid, Jonathan ^a   Wu, Jinfang ^a   Luo, Jin ^a   Yu, Gang ^b   Ren, Yang ^d   Zhong, Chuan Jian ^a  

^a BINGHAMTON UNIVERSITY   (United States)

^b HUNAN UNIVERSITY   (China)

^c CENTRAL MICHIGAN UNIVERSITY   (United States)

^d ARGONNE NATIONAL LABORATORY   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

ATOMS; CATALYST ACTIVITY; CATALYSTS; DESIGN FOR TESTABILITY; DISTRIBUTION FUNCTIONS; ELECTROCATALYSIS; ELECTROLYTIC REDUCTION; GOLD; GOLD ALLOYS; LIGANDS; MOLECULAR OXYGEN; NANOPARTICLES; NANOWIRES; PLATINUM; SHRINKAGE; X RAY DIFFRACTION;

ADSORPTION ENERGIES; ATOMIC PAIR DISTRIBUTION FUNCTIONS; BIMETALLIC COMPOSITIONS; ELECTROCATALYTIC ACTIVITY AND STABILITY; HIGH-ENERGY SYNCHROTRON X-RAYS; INTER-ATOMIC BONDING; OXYGEN REDUCTION REACTION; SURFACE CHARACTERISTICS;

PLATINUM ALLOYS;

CARBON; ELECTROLYTE; GOLD ALLOY; NANOPARTICLE; NANOWIRE; OXYGEN; OXYGEN DERIVATIVE; PLATINUM; SURFACTANT;

ADSORPTION; ARTICLE; CATALYSIS; CATALYST; CONTROLLED STUDY; NANOCATALYST; REDUCTION; SYNCHROTRON; X RAY DIFFRACTION;

EID: 84988628724     PISSN: 00027863     EISSN: 15205126     Source Type: Journal    
DOI: 10.1021/jacs.6b05187     Document Type: Article

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