Synthesis of Platinum Nanotubes and Nanorings via Simultaneous Metal Alloying and Etching

Zhiqi Huang; David Raciti; Shengnan Yu; Lei Zhang; Lin Deng; Jie He; Yijing Liu; Niveeen M. Khashab; Chao Wang; Jinlong Gong; Zhihong Nie

doi:10.1021/jacs.6b01328

Synthesis of Platinum Nanotubes and Nanorings via Simultaneous Metal Alloying and Etching

Zhiqi Huang, David Raciti, Shengnan Yu, Lei Zhang, Lin Deng, Jie He, Yijing Liu, Niveeen M. Khashab, Chao Wang, Jinlong Gong^*, Zhihong Nie

^*Corresponding author for this work

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

50 Citations (Scopus)

Abstract

Metallic nanotubes represent a class of hollow nanostructures with unique catalytic properties. However, the wet-chemical synthesis of metallic nanotubes remains a substantial challenge, especially for those with dimensions below 50 nm. This communication describes a simultaneous alloying-etching strategy for the synthesis of Pt nanotubes with open ends by selective etching Au core from coaxial Au/Pt nanorods. This approach can be extended for the preparation of Pt nanorings when Saturn-like Au core/Pt shell nanoparticles are used. The diameter and wall thickness of both nanotubes and nanorings can be readily controlled in the range of 14-37 nm and 2-32 nm, respectively. We further demonstrated that the nanotubes with ultrathin side walls showed superior catalytic performance in oxygen reduction reaction.

Original language	English
Pages (from-to)	6332-6335
Number of pages	4
Journal	Journal of the American Chemical Society
Volume	138
Issue number	20
DOIs	https://doi.org/10.1021/jacs.6b01328
Publication status	Published - 25 May 2016
Externally published	Yes

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title = "Synthesis of Platinum Nanotubes and Nanorings via Simultaneous Metal Alloying and Etching",

abstract = "Metallic nanotubes represent a class of hollow nanostructures with unique catalytic properties. However, the wet-chemical synthesis of metallic nanotubes remains a substantial challenge, especially for those with dimensions below 50 nm. This communication describes a simultaneous alloying-etching strategy for the synthesis of Pt nanotubes with open ends by selective etching Au core from coaxial Au/Pt nanorods. This approach can be extended for the preparation of Pt nanorings when Saturn-like Au core/Pt shell nanoparticles are used. The diameter and wall thickness of both nanotubes and nanorings can be readily controlled in the range of 14-37 nm and 2-32 nm, respectively. We further demonstrated that the nanotubes with ultrathin side walls showed superior catalytic performance in oxygen reduction reaction.",

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AU - Huang, Zhiqi

AU - Raciti, David

AU - Yu, Shengnan

AU - Zhang, Lei

AU - Deng, Lin

AU - He, Jie

AU - Liu, Yijing

AU - Khashab, Niveeen M.

AU - Wang, Chao

AU - Gong, Jinlong

AU - Nie, Zhihong

PY - 2016/5/25

Y1 - 2016/5/25

N2 - Metallic nanotubes represent a class of hollow nanostructures with unique catalytic properties. However, the wet-chemical synthesis of metallic nanotubes remains a substantial challenge, especially for those with dimensions below 50 nm. This communication describes a simultaneous alloying-etching strategy for the synthesis of Pt nanotubes with open ends by selective etching Au core from coaxial Au/Pt nanorods. This approach can be extended for the preparation of Pt nanorings when Saturn-like Au core/Pt shell nanoparticles are used. The diameter and wall thickness of both nanotubes and nanorings can be readily controlled in the range of 14-37 nm and 2-32 nm, respectively. We further demonstrated that the nanotubes with ultrathin side walls showed superior catalytic performance in oxygen reduction reaction.

AB - Metallic nanotubes represent a class of hollow nanostructures with unique catalytic properties. However, the wet-chemical synthesis of metallic nanotubes remains a substantial challenge, especially for those with dimensions below 50 nm. This communication describes a simultaneous alloying-etching strategy for the synthesis of Pt nanotubes with open ends by selective etching Au core from coaxial Au/Pt nanorods. This approach can be extended for the preparation of Pt nanorings when Saturn-like Au core/Pt shell nanoparticles are used. The diameter and wall thickness of both nanotubes and nanorings can be readily controlled in the range of 14-37 nm and 2-32 nm, respectively. We further demonstrated that the nanotubes with ultrathin side walls showed superior catalytic performance in oxygen reduction reaction.

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Synthesis of Platinum Nanotubes and Nanorings via Simultaneous Metal Alloying and Etching

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