1. Solar-powered overall water splitting system combing metal-organic frameworks derived bimetallic nanohybrids based electrocatalysts and one organic solar cell;共同通讯作者;发表刊物:Nano Energy;影响因子:15.548;发表时间:2018-10;分区:JCR1区A1,TOP期刊
2. Theoretical Calculation Guided Electrocatalysts Design: Nitrogen Saturated Porous Mo2C Nanostructures for Hydrogen Production;共同第一作者;发表刊物:APPLIED CATALYSIS B: ENVIRONMENTAL;影响因子:14.229;发表时间:2019-06;分区:JCR1区A1,TOP期刊
3. Ceria and ceria-based nanostructured materials for photoenergy applications;共同第一作者;发表刊物:Nano Energy;影响因子:15.548;发表时间:2017-02;分区:JCR1区A1,TOP期刊
4. In situ growth of a TiO2 layer on a flexible Ti substrate targeting the interface recombination issue of BiVO4 photoanodes for efficient solar water splitting;共同通讯作者;发表刊物:Journal of Materials Chemistry A;影响因子:10.733;发表时间:2017-08;分区:JCR1区A1,TOP期刊
5. Construction of highly dispersed mesoporous bimetallic sulfide nanoparticles locked in N-doped graphitic carbon nanosheets for high energy density hybrid flexible pseudocapacitors;共同通讯作者;发表刊物:Journal of Materials Chemistry A;影响因子:10.733;发表时间:2019-06;分区:JCR1区A1,TOP期刊
6. High-Performance Porous Molybdenum Oxynitride Based Fiber Supercapacitors;共同通讯作者;发表刊物:ACS Applied Materials & Interfaces;影响因子:8.456;发表时间:2017-08;分区:JCR1区A1,TOP期刊
7. A novel CoOOH/(Ti, C)-Fe2O3 nanorod photoanode for photoelectrochemical water splitting;共同第一作者;发表刊物:Science China-Materials;影响因子:5.636;发表时间:2018-01;分区:JCR2区
8. p-Type NiO modified BiVO4 photoanodes with enhanced charge separation and solar water oxidation kinetics;共同通讯作者;发表刊物:MATERIALS LETTERS;影响因子:3.019;发表时间:2019-04;
9. Metal-organic framework derived Fe2O3 nanocubes on intertwined N-doped carbon nanowires for fiber-shaped supercapacitor;共同通讯作者;发表刊物:MATERIALS LETTERS; 影响因子:3.019;发表时间:2018-05;
10. Phytoplankton derived and KOH activated mesoporous carbon materials for supercapacitors;共同通讯作者;发表刊物:MATERIALS LETTERS;影响因子:3.019;发表时间:2017-06;
11. Engineering Ternary Copper-Cobalt Sulfide Nanosheets as High-performance Electrocatalysts toward Oxygen Evolution Reaction;通讯作者;发表刊物:Catalysts;影响因子:3.4;发表时间:2019-05;