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

55 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.",

author = "Zhiqi Huang and David Raciti and Shengnan Yu and Lei Zhang and Lin Deng and Jie He and Yijing Liu and Khashab, \{Niveeen M.\} and Chao Wang and Jinlong Gong and Zhihong Nie",

note = "Publisher Copyright: {\textcopyright} 2016 American Chemical Society.",

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doi = "10.1021/jacs.6b01328",

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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.

UR - https://www.scopus.com/pages/publications/84971370540

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DO - 10.1021/jacs.6b01328

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VL - 138

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JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 20

ER -

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

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