论文成果
- Surface reconstruction, doping and vacancy engineering to improve the overall water splitting of CoP nanoarrays.16(1):
- Graphite-N modified single Fe atom sites embedded in hollow leaf-like nanosheets as air electrodes for liquid and flexible solid-state Zn-air batteries.477( ):
- Amorphous high-valence Mo-doped NiFeP nanospheres as efficient electrocatalysts for overall water-splitting under large-current density.468(-):
- Microwave-assisted to decorate Ru onto Hollow-structured Fe-P spheres as efficient Electrocatalyst for hydrogen generation in wide pH range.623(-):
- Interface, vacancy, and morphology engineering synergistically improve In2S3@Cu2S electrocatalytic performance for pH-universal HER.11(5):
- Tailoring the local electron and modulating morphology to enhance the overall water splitting and urea electrolysis of CoMoO4@Cu2S electrocatalyst with superhydrophilicity. (477):
- FeNi-quantom-dots induced stable interfaces of high loading FeNCN electrode for enhanced sodium storage performance.643( ):
- Construction of intramolecular donor-acceptor type carbon nitride for photocatalytic hydrogen production.655( ):
- Modulating electronic structure and sulfur p-band center by anchoring amorphous Ni@NiS<sub>x</sub> on crystalline CdS for expediting photocatalytic H<sub>2</sub> evolution.342( ):
- Ag@Pt core-shell icosahedral nanocrystals with solid solution interface improve pH-Universal hydrogen evolution at large current densities.254(-):