Core–shell heterojunction engineering of Co3O4/NiFe LDH nanosheets as bifunctional electrocatalysts for efficient reduction of nitrite to ammonia

Author:Date:2023-11-21Views:11

论文题目:Core–shell heterojunction engineering of Co3O4/NiFe LDH nanosheets as bifunctional electrocatalysts for efficient reduction of nitrite to ammonia

论文作者:Yi Feng, Jin-Tao Ren, Hao-Yu Wang, Lei Wang and  Zhong-Yong Yuan*

发表期刊:norg. Chem. Front., 2023,10, 4510-4518.


Abstract

An electrocatalytic NO2 reduction reaction (NO2RR) has cast new light on renewable NH3 synthesis and treatment of NO2-contaminated aquatic ecosystems. Numerous studies have been devoted to developing NO2RR  electrocatalysts with superior selectivity. However, few efforts have  focused on constructing bifunctional catalysts promoting the NO2RR  and the oxygen evolution reaction (OER) simultaneously, which is  significant to reduce the energy consumption and cost of  electrocatalytic ammonia production. Herein, we demonstrate the  core–shell heterostructures of NiFe LDH nanoarrays attached to Co3O4 nanosheets on Ni foam, which exhibit an excellent NO2RR performance (yield: 4.27 mg h−1 cm−2, FE: 96.53% at −0.5 V) and a remarkable OER performance (η100: 270 mV) as well as decent stability. Furthermore, a two-electrode electrolyzer assembled with Co3O4/NiFe LDH heterostructures only requires 1.55 V to reach 10 mA cm−2, approaching that of the ammonia production system assembled with a noble-metal-based catalyst. The decent NO2RR  and OER properties benefit from the optimized electronic structure due  to the heterojunction formation and the increased electrochemically  active area owing to the core–shell structure construction. This effort  offers new insights into achieving high-efficiency and low-cost  electrocatalytic ammonia production.