Zinc–air batteries (ZABs) have been considered as a next-generation battery system with
high energy density and abundant resources. However, the sluggish multi-step reaction of …

With the growing demands for sustainable energy, research on electrocatalysis is attracting
more attention in the fabrication of clean energy devices (eg, fuel cell, electrolyzer, and …

Interfacial engineering is an effective strategy for the design of active oxygen evolution
electrode. Yet the intrinsic mechanism of heterogeneous interfaces remains largely unclear …

Oxygen evolution reaction (OER) is a key step for electrochemical water splitting and
understanding the surface reconstruction of OER pre-catalysts is of vital importance. Herein …

Achieving large current density is crucial to the practical application of large-scale hydrogen
production by water splitting, but it is hindered by sluggish and unstable catalysts. Herein, a …

Constructing heterojunction is an effective strategy to develop high-performance non-
precious-metal-based catalysts for electrochemical water splitting (WS). Herein, we design …

Transition metal borides are considered as promising electrocatalysts for water splitting due
to their metallic conductivity and good durability. However, the currently reported …

Abstract Rechargeable Zn-air batteries (ZABs) are promising for energy storage and
conversion. However, the low energy efficiency caused by the high charging voltage greatly …

Electrocatalytic water splitting has received widespread attention. However, due to the slow
reaction kinetics and complex electron transfer process, the oxygen evolution reaction …

Exploring highly active and stable non-precious-metal catalysts for water splitting is
significant, especially at large current density. Herein, a carbon-encapsulated FeWO 4-Ni 3 …