5 Yushan Road
Qingdao, 266003
China
Ocean University of China
Recyclable salt method, Single atom catalyst, CoN3, Oxygen reduction/evolution reaction, Ultrastable Zn-Air Batteries
Fe substitution, phosphide, Heterojunction, charge redistribution, urea oxidation reaction
Fe substitution, phosphide, Heterojunction, charge redistribution, Urea oxidation reaction
interface engineering, Ni5P4/NiSe heterojunction, electronic structure, urea oxidation reaction, large current densities
Ni-based selenides, homogeneous, heterogeneous, urea oxidation reaction, large current densities
Hydrogen, seawater electrolysis, amorphous/crystalline interface, reaction kinetic, corrosion resistance
metal-organic frameworks, interfacial built-in electric field, electron clouds overlap, energy level structure, oxygen evolution reaction
1, 8-Naphthalimide, Ester modification, Electron transport materials, Interface engineering, Organic solar cells
dual-interface engineering, chlorine-free, Built-in Electric Field, seawater oxidation, high current density
local reconstruction, hydrogen evolution, hydrazine electro-oxidation, transition metal phosphides, bifunctionality
dual–atom catalysts, single atom catalysis, d–band center, oxygen evolution reaction, rechargeable zinc–air batteries