2. Gong, Hao; Wang, Tao*; Chang, Kun; Li, Peng; Liu, Lequan; Yu, Xingyu; Gao, Bin; Xue, Hairong*; Ma, Renzhi; He, Jianping* ; Ye, Jinhua*. Revealing the illumination effect on the discharge products in high-performance Li–O2 batteries with heterostructured photocatalysts. Carbon Energy 2022,4 (6), 1169.
3. Gong, Hao; Xue, Hairong; Gao, Bin; Li, Yang; Fan, Xiaoli; Zhang, Songtao; Wang, Tao*; He, Jianping*. Introduction of photo electrochemical water-oxidation mechanism into hybrid lithium–oxygen batteries. Energy Storage Materials 2020,31, 11.
4. Gong, Hao; Wang, Tao*; Xue, Hairong; Fan, Xiaoli; Gao, Bin; Zhang, Huabin; Shi, Li; He, Jianping*; Ye, Jinhua*. Photo-enhanced lithium oxygen batteries with defective titanium oxide as both photo-anode and air electrode. Energy Storage Materials 2018,13, 49.
5. Xu, Yunyun; Gong, Hao*; Ren, Hao; Fan, Xiaoli; Li, Peng; Zhang, Tengfei; Chang, Kun; Wang, Tao*; He, Jianping*. Highly efficient Cu-porphyrin-based metal-organic framework nanosheet as cathode for high-rate Li-CO2 battery. Small 2022,18 (45), e2203917.
6. Yu, Xingyu; Gong, Hao*; Gao, Bin; Fan, Xiaoli; Li, Peng; Huang, Xianli; Chang, Kun; Wang, Tao*; He, Jianping*. Illumination-enhanced oxygen reduction kinetics in hybrid lithium-oxygen battery with p-type semiconductor. Chemical Engineering Journal 2022,449, 137774.
7. Gong, Hao; Wang, Tao*; Xue, Hairong; Lu, Xueyi; Xia, Wei; Song, Li; Zhang, Songtao; He, Jianping*; Ma, Renzhi*. Spatially-controlled porous nanoflake arrays derived from MOFs: An efficiently long-life oxygen electrode. Nano Research 2019,12 (10), 2528.
8. Gong, Hao; Wang, Tao*; Guo, Hu; Fan, Xiaoli; Liu, Xiao; Song, Li; Xia, Wei; Gao, Bin; Huang, Xianli; He, Jianping*. Fabrication of perovskite-based porous nanotubes as efficient bifunctional catalyst and application in hybrid lithium–oxygen batteries. Journal of Materials Chemistry A 2018,6 (35), 16943.
9. Xue, Hairong#; Gong, Hao#; Yamauchi, Yusuke; Sasaki, Takayoshi; Ma, Renzhi. Photo-enhanced rechargeable high-energy-density metal batteries for solar energy conversion and storage. Nano Research Energy 2022,1, e9120007.
10.Xu, Yunyun#; Gong, Hao#; Song, Li; Kong, Yulong; Jiang, Cheng; Xue, Hairong; Li, Peng; Huang, Xianli; He, Jianping; Wang, Tao*. A highly efficient and free-standing copper single atoms anchored nitrogen-doped carbon nanofiber cathode toward reliable Li–CO2 batteries. Materials Today Energy 2022,25, 100967.
11.Gong, Hao*; Yu, Xingyu; Xu, Yunyun; Gao, Bin; Xue, Hairong; Fan, Xiaoli; Guo, Hu; Wang, Tao*; He, Jianping*. Long-life reversible Li-CO2 batteries with optimized Li2CO3 flakes as discharge products on palladium-copper nanoparticles. Inorganic Chemistry Frontiers 2022,9 (7), 1533.
12.Gong, Hao; Xue, Hairong.; Gao, Bin; Li, Yang; Yu, Xingyu; Fan, Xiaoli; Zhang, Songtao; Wang, Tao*; He, Jianping*. Solar-enhanced hybrid lithium-oxygen batteries with a low voltage and superior long-life stability. Chemical Communications 2020,56 (88), 13642.
13.Gong, Hao; Xue, Hairong; Lu, Xueyi; Gao, Bin; Wang, Tao*; He, Jianping*; Ma, Renzhi*. All solid-state lithium-oxygen batteries with mof-derived nickel cobaltate nanoflakes arrays as high-performance oxygen cathode. Chemical Communications 2019,55, 10689.
14.Gong, Hao; Xue, Hairong; Wang, Tao; He, Jianping*. In-situ synthesis of monodisperse micro-nanospherical LiFePO4/carbon cathode composites for lithium-ion batteries. Journal of Power Sources 2016,318, 220.
15.Gong, Hao; Xue, Hairong; Wang, Tao; Guo, Hu; Fan, Xiaoli; Song, Li; Xia, Wei; He, Jianping*. High-loading nickel cobaltate nanoparticles anchored on three-dimensional N-doped graphene as an efficient bifunctional catalyst for lithium-oxygen batteries. ACS Applied Materials and Interfaces 2016,8 (28), 18060.
