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 …

Oxygen reduction reaction (ORR) is an essential process for sustainable energy supply and
sufficient chemical production in modern society. Single‐atom catalysts (SACs) exhibit great …

Atomically dispersed iron-nitrogen-carbon catalysts offer great potential in oxygen reduction
reaction (ORR), yet the poor exposure and low density of Fe-N x sites causes relatively low …

A flexible air electrode with excellent activity and outstanding stability is highly desirable for
metal-air batteries. Herein, the rational design of CoNi alloys derived intertwined N-doped …

The reasonable design of porous structures is important but usually overlooked for
nonprecious metal ORR catalysts. In this study, a facile dual melt-salt-mediated templating …

Atomically-dispersed FeN 4 moieties are emerging as low-cost electrocatalysts for oxygen
reduction reaction (ORR), which can be applied in fuel cells and metal-air batteries …

Exploration and development of cost‐effective, ultra‐long durability, and high‐performing
non‐noble‐metal catalysts for the oxygen reduction reaction (ORR) to replace Pt‐based …

Aluminum–sulfur batteries (ASBs) are deemed to be alternatives to meet the increasing
demands for energy storage due to their high theoretical capacity, high safety, low cost, and …

Non‐noble iron‐nitrogen‐carbon (Fe‐N‐C) catalysts have been explored as one type of the
most promising alternatives of precious platinum (Pt) in catalyzing the oxygen reduction …

Nitrogen coordinated Fe single atoms (Fe-N x SAs) anchored in carbon support is one of the
most efficient electrocatalysts for oxygen reduction reaction (ORR). Engineering the …