Research

Multi-deimension utilization of solar energy.

Including solar rechargeable battery, secondary battery, all-solid-state battery and solar cells

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Representative results

Solar rechargeable battery:

1.Peng ChenTian-Tian LiYuan-Bo Yang, Guo-Ran LiXue-Ping Gao*Coupling aqueous zinc batteries and perovskite solar cells for simultaneous energy harvest, conversion and storageNature Communications, 2022 (Featured in Nature Communications Editors’ Highlights webpage)


2.Tian-Tian Li, Yuan-Bo Yang, Guo-Ran Li; Peng Chen*; Xue-Ping Gao*; Two-terminal Perovskite-based Tandem Solar Cells for Energy Conversion andStorageSmall, 2021


3.Peng ChenTian-Tian LiGuo-Ran LiXue-Ping Gao*.Quasi-solid-state solar rechargeable capacitors based on in-situ Janus modified electrode for solar energy multiplication effectSci. China Mater2020


4.Peng ChenGuo-Ran LiTian-Tian LiXue-Ping Gao*Solar‐Driven Rechargeable Lithium–Sulfur BatteryAdvanced Science, 2019.


All-solid-state battery:


1.Bo-Sheng Zhao,  Peng Chen*, Xue-Ping Gao*; Bulk and interface strengthened Li7P2.9Sb0.1S10.65O0.15I0.2 electrolyte via dual-source doping for all-solid-state lithium-sulfur batteriesScience China-Materials, 2022


2.Xiu Zheng, En-De Fu, Peng Chen*, Sheng Liu, Guo-Ran Li, and Xue-Ping Gao*; Li3InCl6-coated LiCoO2 for high-performance all solid-state batteriesApplied Physics Letters, 2022


3.Bo-Sheng Zhao, Lu Wang, Peng Chen*, Sheng Liu, Guo-Ran Li, Ning Xu, Meng-Tao Wu, and Xue-Ping Gao*; Congener Substitution Reinforced Li7P2.9Sb0.1S10.75O0.25 Glass-Ceramic Electrolytes for All-Solid-State Lithium–Sulfur BatteriesACS Appl. Mater. Interfaces, 2021



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