Cheng’an Zhong

TL;DR: A new N-anion-decorated Ni3 S2 material synthesized by a simple one-step calcination route is put forward, acting as a superior bifunctional electrocatalyst for the OER/HER for the first time.

TL;DR: In this paper, a high-purity pyrrole-type FeN4 catalyst was proposed for proton exchange membrane fuel cells (PEMFCs), which exhibited extremely outstanding ORR activity with an ultra high active area current density of 6.89 mA m−2 in acid medium, which exceeds that of most reported metal-nitrogen coordination catalysts.

TL;DR: One-nanometer-scale ultrathin cobalt oxide (CoOx) layers are fabricated on a conducting substrate to achieve superior bifunctional activity in both the ORR and OER and ultrahigh output power for flexible Zn-air batteries and provide abundant active sites for electrocatalytic activity.

TL;DR: In this paper, a planar-like Fe2N6 active site was proposed as a highly efficient oxygen reduction catalyst for PEMFCs, which brought synergic advantages of accelerated catalytic kinetics and highly suppressed side reaction, successfully promoting its catalytic activity and stability.

TL;DR: This study highlights an ultrahigh-power-density Zn-air fuel cell with robust stability that shows the best stability under high-current-density discharging and superior power density compared to most reported non-noble-metal electrocatalysts.