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Prof. Dr. Shichun Mu's group
State Key Laboratory of Advanced Technology for Materials Synthesis and Processing, Wuhan University of Technology
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Multiscale Failure Mechanisms of Ternary Oxide Cathode Materials for Lithium-Ion Batteries
Multiscale Failure Mechanisms of Ternary Oxide Cathode Materials for Lithium-Ion Batteries
武理-木士春&曾炜豪︱AM:锂离子电池三元氧化物正极材料的多尺度失效机理
Multiscale Failure Mechanisms of Ternary Oxide Cathode Materials for Lithium-Ion Batteries
Multiscale Failure Mechanisms of Ternary Oxide Cathode Materials for Lithium-Ion Batteries
Multiscale failure mechanisms of ternary oxide cathode materials for lithium-ion batteries
Multiscale Failure Mechanisms of Ternary Oxide Cathode Materials for Lithium-Ion Batteries
Academic reputation of the team
Suppressing high-valent ruthenium oxidation by oxide pathway mechanism for ultra-stable oxygen evolution
Oxyanion-triggered Discrepant Oxide Pathways via Tailoring Reconstruction of Non-noble Catalysts for Water Oxidation
Hydroxyl-interfacial Water Proton Exchange Strategy to Hasten Water Reduction on Ruthenium Sites
Hydroxyl-interfacial Water Proton Exchange Strategy to Hasten Water Reduction on Ruthenium Sites
Hydroxyl-interfacial Water Proton Exchange Strategy to Hasten Water Reduction on Ruthenium Sites
Finally, someone has explained the principle of adsorbate evolution mechanism (AEM)!
Ultra-rapid hydrogen evolution reaction kinetics over CeO2@PtCu coaxial nanocables
Strengthened d-p orbital hybridization and hydrogen diffusion in a hollow N-doped porous carbon/Ru cluster catalyst ...
RuTe2 Heterophase Homojunction Induced Built-in Electric Field Drives Ultrafast Hydrogen Evolution Reaction Kinetics
RuTe2 Heterophase Homojunction Induced Built-in Electric Field Drives Ultrafast Hydrogen Evolution Reaction Kinetics
RuTe2 Heterophase Homojunction Induced Built-in Electric Field Drives Ultrafast Hydrogen Evolution Reaction Kinetics
Cu-N-C support confinement stabilizes active Co sites in oxygen reduction reaction
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