Rational design of 2D MBene-based bifunctional OER/ORR dual-metal atom catalysts: a DFT study.

Designing highly active, low-cost, and bifunctional oxygen evolution reaction (OER) and oxygen reduction reaction (ORR) catalysts is urgent for the development of metal-air batteries. Herein, by density functional theory (DFT) calculations, we systematically reported a series of dual-metal atom adsorbed novel two-dimensional (2D) MBenes as efficient bifunctional catalysts for the OER/ORR (namely 2TM/TM 1 TM 2 -Mo 2 B 2 O 2 , TM = Mn, Fe, Co, Ni). Our theoretical results show that 2Ni-Mo 2 B 2 O 2 , FeCo-Mo 2 B 2 O 2 and CoNi-Mo 2 B 2 O 2 exhibit outstanding OER/ORR catalytic activity with overpotentials of 0.49/0.27 V, 0.38/0.50 V and 0.25/0.51 V, respectively, exceeding those of IrO 2 (110) for the OER and Pt(111) for the ORR. Additionally, these highly active bifunctional catalysts can effectively suppress the hydrogen evolution reaction (HER), ensuring the absolute preference for the OER/ORR. More importantly, the Bader charge ( Q TM ) of adsorbed dual-metal atoms is used as a descriptor of OER/ORR catalytic activity, which is linearly related to η ORR and volcanically related to - η OER . Our work not only provides new theoretical guidance for developing noble metal-free bifunctional electrocatalysts but also enriches the application of MBenes in electrocatalysis.