1. La–doped FeNiSe4/Fe0.8Ni0.2Se2/NF heterostructure for superior oxygen evolution reaction.
- Author
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Cao, Mengjuan, Yang, Mengkai, Xu, Yanyan, Sun, Yaqiu, and Sun, Hongming
- Subjects
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HYDROGEN evolution reactions , *OXYGEN evolution reactions , *DOPING agents (Chemistry) , *PRUSSIAN blue , *CHEMICAL engineering , *CHARGE transfer - Abstract
The novel La-doped FeNiSe 4 /Fe 0.8 Ni 0.2 Se 2 /NF (La-FeNi-Se/NF) heterostructure catalyst was prepared by a facile selenization treatment to La-doped FeNi Prussian blue analogue(PBA) in-situ grown on foam nickel (NF). The optimized La-FeNi-Se-2/NF exhibits superior alkaline OER electrocatalytic activity with a low overpotential 158 mV at 10 mA cm−2, a small Tafel slope 35.6 mV dec−1 and long-time durability. [Display omitted] • A simple and efficient method for preparing La-doped FeNi-Se/NF heterostructure. • The optimized La-FeNi-Se-2/NF exhibits superior alkaline OER electrocatalytic activity. • This performance was superior to most reported FeNi-based OER electrocatalysts. It is of great value to explore non-noble and highly active electrocatalysts for oxygen evolution reaction (OER) to obtain reproducible and clean fuels. In this work, a novel La-doped FeNiSe 4 /Fe 0.8 Ni 0.2 Se 2 /NF (La-FeNi-Se/NF) heterostructure catalyst was prepared by a facile selenization treatment to La-doped FeNi Prussian blue analogue(PBA) in-situ grown on foam nickel (NF). The catalytic performance of La-FeNi-Se/NF was significantly enhanced by the doped La3+. As a result, the optimized La-FeNi-Se-2/NF exhibits superior alkaline OER electrocatalytic activity (overpotential 158 mV at 10 mA cm−2 and Tafel slope 35.6 mV dec−1) than FeNi-Se/NF and Ln-FeNi-Se/NF (Ln = Ce, Gd, Yb), and most reported FeNi-based OER electrocatalysts. The excellent electrocatalytic capability to OER is attributed to the doping FeNi-Se heterostructure with a suitable amount La3+. Also, the unique La-FeNi-Se-2/NF flower-like structure composed of nanograins can produce abundant active sites and enhance charge transfer, thereby further improving the catalytic performance. This work highlights an effective chemical and engineering method to prepare efficient electrochemical catalysts. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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