As GO and rGO have hugely different properties andapplications,[1] it is crucially important to study theinterconversion between GO and rGO,namely,redox ofgraphene.
For the large-scale applications or development of fuel cells,the high-performance low-cost catalytic materials for ORR have been very desirable to replace platinum(Pt)-based catalyst due to the limit
Due to underlying catalytic details of catalysts hidden in the ensemble-averaged measurements,the single-molecule approach enables studying the catalytic behavior of nanoparticles at single-particle l
We report firstly a new type of nitrogen-triggered Zn single atom catalyst,demonstrating high catalytic activity and remarkable durability for oxygen reduction reaction(ORR) process.
Herein,we develop a novel method to synthesize evenly dispersed fine Co nanoparticles(NPs)(particle size of ~42 nm) encapsulated in N-doped porous carbon matrix(NPCM) with superficial N-doped porous c
Currently,Pt and Pt-based nanomaterials are the most effctive electrocatalysts for oxygen reduction reaction(ORR) and methanol oxidation reaction(MOR) in the proton-exchange membrane fuel cells (PEMFC