Enhanced electrocatalysis of NiMnIn Heusler alloy films for hydrogen evolution reaction by magnetic field

Much effort has been devoted to developing novel electrodes of lower cost and higher efficiency to electrolyze water in scalable applications, which is mainly focused on 3d transition metals or oxides. In this work, Ni43Mn32In25 (NiMnIn) Heusler alloy films with highly efficient hydrogen evolution reaction (HER) activity were deposited on porous Ni foam (NF) by pulsed laser deposition. With the synergetic contribution of constituent elements, the as-prepared NiMnIn films exhibited excellent performance with a low overpotential of 189.4 mV in the initial state and 133.4 mV after activation (at a current density of & minus;10 mA cm & minus;2) for HER in alkaline medium. Magnetic measurements have confirmed the ferromagnetic nature of NiMnIn films at room temperature, and the HER activity can be significantly improved by applying a magnetic field. The current density of NiMnIn/NF could be increased by 10% and 7% respectively, at a constant overpotential of 275 mV by applying a magnetic field of 8 kOe perpendicular and parallel to NF. This work suggests that Heusler alloys with various 3d transition metal constituents can be a potential efficient HER active electrode in water splitting, which has the magnetic field sensitivity for applications in magnetoelectrochemistry. (c) 2021 Elsevier B.V. All rights reserved.

Automated summary

A Ni43Mn32In25 (NiMnIn) Heusler alloy film with highly efficient hydrogen evolution reaction (HER) activity was developed and deposited on porous Ni foam by pulsed laser deposition. The NiMnIn film exhibited ferromagnetic properties at room temperature and showed significantly enhanced HER activity when a magnetic field was applied. This work suggests that Heusler alloys can be efficient HER active electrodes with magnetic field sensitivity for magnetoelectrochemistry applications.