Highly stable Pt3Ni nanowires tailored with trace Au for the oxygen reduction reaction

Zhifu Wu; Ya Qiong Su; Emiel J.M. Hensen; Xinlong Tian; Chenghang You; Qin Xu

doi:10.1039/c9ta08682j

Highly stable Pt₃Ni nanowires tailored with trace Au for the oxygen reduction reaction

Zhifu Wu (Corresponding author), Ya Qiong Su, Emiel J.M. Hensen, Xinlong Tian, Chenghang You, Qin Xu

Inorganic Materials & Catalysis

Onderzoeksoutput: Bijdrage aan tijdschrift › Tijdschriftartikel › Academic › peer review

65 Citaten (Scopus)

Samenvatting

One dimensional and bimetallic platinum nickel (PtNi) nanowires are a representative type of electrocatalyst with efficient oxygen reduction reaction (ORR) activity, while the catalytic stability is limited and still needs to be addressed. Herein, thin Pt₃Ni nanowires were successfully synthesized with superior ORR activity and stability compared with the commercial Pt/C catalyst, and notably, the durability of the catalyst can be further boosted by the in situ deposition of trace Au during the synthetic process without sacrificing the high ORR activity. The mass and specific activity of the optimized catalyst were 3.08 A mg_Pt^-1 and 5.74 mA cm^-2, respectively, which are approximately 14.7 and 16.9-fold that of a commercial JM Pt/C catalyst. Most importantly, the catalyst shows negligible performance degradation after 20000 continuous potential cycles, and the structural stability of the catalyst was also confirmed by comprehensive measurements. The DFT data confirmed that decoration with Au atoms could effectively stabilize the Pt₃Ni structure and composition by reducing the defect sites of Pt₃Ni-skin and suppressing the dissolution of Ni atoms. This work provides a strategic approach for rational fabrication of high-performance ORR electrocatalysts with satisfactory durability.

Originele taal-2	Engels
Pagina's (van-tot)	26402-26409
Aantal pagina's	8
Tijdschrift	Journal of Materials Chemistry A
Volume	7
Nummer van het tijdschrift	46
DOI's	https://doi.org/10.1039/c9ta08682j
Status	Gepubliceerd - 14 dec. 2019

Financiering

This work was supported by the National Natural Science Foundation of China (Grant No. 81660668, 21606061, 21802048, and 21805104), Guangxi Colleges and Universities Key Subject of Material Physics and Chemistry (090106001), the characteristic research team of aluminum matrix composite materials of Baise University (081005002), Funds for the Construction of Master's Degree Granting Units in Guangxi Zhuang Autonomous Region in 2019 (304011901) and Natural Science Foundation of Hainan Province (Project No. 218MS044).

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10.1039/c9ta08682j

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title = "Highly stable Pt3Ni nanowires tailored with trace Au for the oxygen reduction reaction",

abstract = "One dimensional and bimetallic platinum nickel (PtNi) nanowires are a representative type of electrocatalyst with efficient oxygen reduction reaction (ORR) activity, while the catalytic stability is limited and still needs to be addressed. Herein, thin Pt3Ni nanowires were successfully synthesized with superior ORR activity and stability compared with the commercial Pt/C catalyst, and notably, the durability of the catalyst can be further boosted by the in situ deposition of trace Au during the synthetic process without sacrificing the high ORR activity. The mass and specific activity of the optimized catalyst were 3.08 A mgPt-1 and 5.74 mA cm-2, respectively, which are approximately 14.7 and 16.9-fold that of a commercial JM Pt/C catalyst. Most importantly, the catalyst shows negligible performance degradation after 20000 continuous potential cycles, and the structural stability of the catalyst was also confirmed by comprehensive measurements. The DFT data confirmed that decoration with Au atoms could effectively stabilize the Pt3Ni structure and composition by reducing the defect sites of Pt3Ni-skin and suppressing the dissolution of Ni atoms. This work provides a strategic approach for rational fabrication of high-performance ORR electrocatalysts with satisfactory durability.",

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AU - Su, Ya Qiong

AU - Hensen, Emiel J.M.

AU - Tian, Xinlong

AU - You, Chenghang

AU - Xu, Qin

PY - 2019/12/14

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