Issue 31, 2016

Self-aligned synthesis of a NiPt-alloycore@Ptshell nanocrystal with contrivable heterojunction structure and oxygen reduction activity

Abstract

A bimetallic NiPt nanocrystal (NC) has been synthesized using the wet chemical reduction method; it was sequentially designed in the presence of carbon nanotubes. NiPt@Pt NC is a nanocrystal with the configuration of a NiPt alloy core and tuneably thick Pt shell. Under optimum conditions (Pt = 20 at%), the oxygen reduction current of NiPt@Pt NC is 1.08-fold at 0.85 V (vs. RHE), as compared to Pt NC, and the onset voltage (VOC) is 0.905 V. The results of the atomic and crystal structure analyses show that such an enhancement is largely due to the impact of the local strain and the electronic dipole at the heterogeneous Pt–Ni interface. Most importantly, we have proposed a robust technique for programming the atomic structural configuration and oxygen reduction activity of NC, which shows comparable performance and ~80% less Pt loading than Pt NC.

Graphical abstract: Self-aligned synthesis of a NiPt-alloycore@Ptshell nanocrystal with contrivable heterojunction structure and oxygen reduction activity

Supplementary files

Article information

Article type
Paper
Submitted
21 May 2016
Accepted
22 Jun 2016
First published
22 Jun 2016

CrystEngComm, 2016,18, 5860-5868

Self-aligned synthesis of a NiPt-alloycore@Ptshell nanocrystal with contrivable heterojunction structure and oxygen reduction activity

T. Chen, S. Chang, C. W. Hu, Y. Liao, Y. J. Sue, Y. Hsu, K. Wang and Y. Liu, CrystEngComm, 2016, 18, 5860 DOI: 10.1039/C6CE01182A

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