Xian Wang

TL;DR: A spontaneously absorbed electron-withdrawing OH ligand was proposed to act proactively as an energy level modifier to empower easy intermediate desorption, while the triangular Fe-Co-OH coordination facilitates O-O bond scission, and this finding opens up a novel strategy to tailor the electronic structure of an atomic site towards boosted activity.

TL;DR: Using metal organic framework as anchoring matrix, pyrolyzed Cr/N/C SACs for ORR are obtained, where the atomically dispersed Cr are confirmed in Cr-N4 coordination structure, and the final catalysts show superb stability.

TL;DR: The integration of synergetic designs into high-quality, well-defined Cu1.94S-ZnxCd1-xS heteronanorods with continuous composition adjustment for enhanced photocatalytic hydrogen evolution fully exploit the benefits of both interfacial charge separation and optimized band alignments is presented.

TL;DR: A novel Ru-SSC with appropriate adsorption free energy of OH* (ΔGOH*) to confer excellent activity and low Fenton reactivity to maintain long-term stability is demonstrated and the practical application of Ru- SSC is validated by showing excellentActivity and stability in a real fuel cell device.

TL;DR: In this paper, the recent development of mechanism and the material study for both homogeneous and heterogeneous catalysts for the decomposition of formic acid to yield hydrogen and carbon dioxide at mild condition are reviewed in detail.