An electrochemical modification strategy to fabricate NiFeCuPt polymetallic carbon matrices on nickel foam as stable electrocatalysts for water splitting

Ziqi Zhang; Yiduo Li; Zhe Zhang; He Zheng; Yuxin Liu; Yuxing Yan; Chunguang Li; Haiyan Lu; Zhan Shi; Shouhua Feng

doi:10.1039/d2sc02845j

An electrochemical modification strategy to fabricate NiFeCuPt polymetallic carbon matrices on nickel foam as stable electrocatalysts for water splitting

Chem Sci. 2022 Jul 5;13(30):8876-8884. doi: 10.1039/d2sc02845j. eCollection 2022 Aug 4.

Authors

Ziqi Zhang¹, Yiduo Li¹, Zhe Zhang¹, He Zheng¹, Yuxin Liu¹, Yuxing Yan¹, Chunguang Li¹, Haiyan Lu¹, Zhan Shi¹, Shouhua Feng¹

Affiliation

¹ State Key Laboratory of Inorganic Synthesis and Preparative Chemistry, College of Chemistry, Jilin University Changchun 130012 P. R. China zshi@mail.jlu.edu.cn luhy@jlu.edu.cn.

Abstract

Electrochemical modification is a mild and economical way to prepare electrocatalytic materials with abundant active sites and high atom efficiency. In this work, a stable NiFeCuPt carbon matrix deposited on nickel foam (NFFeCuPt) was fabricated with an extremely low Pt load (∼28 μg cm^-2) using one-step electrochemical co-deposition modification, and it serves as a bifunctional catalyst for overall water splitting and achieves 100 mA cm^-2 current density at a low cell voltage of 1.54 V in acidic solution and 1.63 V in alkaline solution, respectively. In addition, a novel electrolyte was developed to stabilize the catalyst under acidic conditions, which provides inspiration for the development of highly efficient, highly stable, and cost-effective ways to synthesize electrocatalysts.