Atomically dispersed metal-nitrogen-carbon (M− N− C) oxygen reduction reaction (ORR)
catalysts have been proven as one of the most promising non-precious metal catalysts. In …

Metallic materials are usually composed of single phase or multiple phases, which refers to
homogeneous regions with distinct types of the atom arrangement. The recent studies on …

With permanent porosity and intrinsic crystallinity, covalent organic frameworks (COFs) have
great potential for solar energy conversions. However, the crystallinity of COFs necessitates …

Advanced oxidation processes (AOPs) dominated by SO 4·-species have drawn mainly
attentions for the removal of persistent pollutions. Nevertheless, single radical underutilizes …

The utilization of heterostructured electrodes offers an effective approach to boost the
energy density of supercapacitors without sacrificing their power density. However, the …

Metal phosphides are counted as smart electrodes for the supercapacitor field due to their
fascinated capacity and conductive features. However, these materials are still suffering from …

Stable and continuous detection of physiological signals without an external power supply is
a crucial technology to realize wearable electronics as the next generation of flexible …

Fe single-atom catalysts still suffer from unsatisfactory intrinsic activity and durability for
oxygen reduction reaction (ORR). Herein, the coexisting Fe single atoms and nanoparticles …

The strategy of defect engineering is increasingly recognized for its pivotal role in
modulating the electronic structure, thereby significantly improving the electrocatalytic …

Neutral water oxidation is a crucial half‐reaction for various electrochemical applications
requiring pH‐benign conditions. However, its sluggish kinetics with limited proton and …