Surface in-situ modulation for carbon nanotube-supported Fe-Ni compounds via electrochemical reduction to enhance the catalytic performance for oxygen evolution reaction
Abstract
Exploring efficient strategies to enhance the catalytic performance for oxygen evolution reaction (OER) is crucial for the rapid development of green hydrogen production based on water electrolysis. Here, a simple and extensible in-situ electrochemical reduction method is proposed to improve the OER catalytic performance. The carbon nanotube-supporting iron-nickel organometallic compound (Fe-Ni@CNT) and the corresponding R-Fe-Ni@CNT with further electrochemical reduction modulation serve as the pre-catalysts to obtain O-Fe-Ni@CNT and RO-Fe-Ni@CNT catalysts during OER process, respectively. The characterization results show that the electrochemical reduction modulation can adjust the redox property of the active species and the in situ transformation process to induce the formation of a greater abundance of Ni3+ (efficient OER active site). Hence, the RO-Fe-Ni@CNT displays significantly enhanced OER catalytic activity and stability compared to the O-Fe-Ni@CNT. This work reveals the unique role of electrochemical reduction modulation on OER catalytic performance, providing more opportunities for the design of efficient catalysts.
- This article is part of the themed collection: 2024 Inorganic Chemistry Frontiers HOT articles