2020 Publications:
1. Lei, Y.et al. Engineering defect-rich Fe-doped NiO coupled Ni cluster nanotube arrays with excellent oxygen evolution activity. Applied Catalysis B-environmental.285,119809(2020)
2. Ye, S.et al. Removing the barrier to water dissociation on single-atom Pt sites decorated with a CoP mesoporous nanosheet array to achieve improved hydrogen evolution. Journal of Materials Chemistry A.8,11246-11254(2020)
3. Ye, S.et al. Construction of tetrahedral CoO(4)vacancies for activating the high oxygen evolution activity of Co(3-x)O(4-delta)porous nanosheet arrays. Nanoscale.12,11079-11087(2020)
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4. Hu,Q.et al. A unique space confined strategy to construct defective metal oxides within porous nanofibers for electrocatalysis. Energy & Environmental Science.13,5097-5103(2020)
5. Yang, H.et al. In situ encapsulated and well dispersed Co3O4 nanoparticles as efficient and stable electrocatalysts for high-performance CO2 reduction. Journal of Materials Chemistry A.8,15675-15680(2020)
6. Guan, Y.et al. Two dimensional ZIF-derived ultra-thin Cu-N/C nanosheets as high performance oxygen reduction electrocatalysts for high-performance Zn-air batteries. Nanoscale.12,14259-14266(2020)
7. Hu, Q.et al. Slower Removing Ligands of Metal Organic Frameworks Enables Higher Electrocatalytic Performance of Derived Nanomaterials. Small.16.2002210(2020)
8. Han, Z.et al. High-Performance Overall CO2 Splitting on Hierarchical Structured Cobalt Disulfide with Partially Removed Sulfur Edges. Advanced Functional Materials.30,2000154(2020)
9. Li, G.et al. Nitrogen and sulfur dual-doped high-surface-area hollow carbon nanospheres for efficient CO2 reduction. Chinese Journal of Catalysis.41,830-838(2020)
10. Yang, H.et al. Recent Progress in Self-Supported Catalysts for CO2 Electrochemical Reduction. Small Methods.4,1900826(2020)
11. Yang, H.et al. Carbon dioxide electroreduction on single-atom nickel decorated carbon membranes with industry compatible current densities. Nature Communications.11,1(2020)
12. Hu, Q.et al. Unconventionally fabricating defect-rich NiO nanoparticles within ultrathin metal-organic framework nanosheets to enable high-output oxygen evolution. Journal of materials chemistry A. 8,2140-2146(2020)