Quantitative Analysis of the Reduction Kinetics Responsible for the One-Pot Synthesis of Pd-Pt Bimetallic Nanocrystals with Different Structures

Ming Zhou, Helan Wang, Madeline Vara, Zachary D. Hood, Ming Luo, Tung Han Yang, Shixiong Bao, Miaofang Chi, Peng Xiao, Yunhuai Zhang, Younan Xia

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Abstract

We report a quantitative understanding of the reduction kinetics responsible for the formation of Pd-Pt bimetallic nanocrystals with two distinctive structures. The syntheses involve the use of KBr to manipulate the reaction kinetics by influencing the redox potentials of metal precursor ions via ligand exchange. In the absence of KBr, the ratio between the initial reduction rates of PdCl42- and PtCl42- was about 10.0, leading to the formation of Pd@Pt octahedra with a core-shell structure. In the presence of 63 mM KBr, the products became Pd-Pt alloy nanocrystals. In this case, the ratio between the initial reduction rates of the two precursors dropped to 2.4 because of ligand exchange and, thus, the formation of PdBr42- and PtBr42-. The alloy nanocrystals took a cubic shape owing to the selective capping effect of Br- ions toward the {100} facets. Relative to the alloy nanocubes, the Pd@Pt core-shell octahedra showed substantial enhancement in both catalytic activity and durability toward the oxygen reduction reaction (ORR). Specifically, the specific (1.51 mA cm-2) and mass (1.05 A mg-1 Pt) activities of the core-shell octahedra were enhanced by about four- and three-fold relative to the alloy nanocubes (0.39 mA cm-2 and 0.34 A mg-1 Pt, respectively). Even after 20000 cycles of accelerated durability test, the core-shell octahedra still exhibited a mass activity of 0.68 A mg-1 Pt, twice that of a pristine commercial Pt/C catalyst.

Original languageEnglish
Pages (from-to)12263-12270
Number of pages8
JournalJournal of the American Chemical Society
Volume138
Issue number37
DOIs
StatePublished - Sep 21 2016

Funding

This work was supported in part by the NSF (CHE 1505441) and startup funds from the Georgia Institute of Technology. As visiting Ph.D. students from Chongqing University, Donghua University, Wuhan University, and Xiamen University, respectively, M.Z., H.W., M.L., and S.B. were also partially supported by the China Scholarship Council (CSC).

FundersFunder number
National Science FoundationCHE 1505441
Georgia Institute of Technology
Chongqing University
China Scholarship Council
Donghua University
Wuhan University
Xiamen University

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