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1) TiO2 Microspheres with Controllable Surface Area and Porosity for Enhanced Light Harvesting and Electrolyte Diffusion in Dye-Sensitized Solar Cells, - Advanced Functional Materials -
2) TiO2 Microspheres with Controllable Surface Area and Porosity for Enhanced Light Harvesting and Electrolyte Diffusion in Dye-Sensitized Solar Cells, - Advanced Functional Materials -
3) Impacts of Oxygen Vacancies on Zinc Ion Intercalation in VO2 - ACS Nano - 2020
4) Facet-Termination Promoted Uniform Zn (100) Deposition for High-Stable Zinc-Ion Batteries - Advanced Energy Materials - 2023
5) Electrochemically Induced Phase Transformation in Vanadium Oxide Boosts Zn- Ion Intercalation - ACS Nano - 2024
6) Building Near-Unity Stacked (002) Texture for High-Stable Zinc Anode - Advanced Functional Materials - 2023
7) Electrochemically Induced Phase Transformation in Vanadium Oxide Boosts Zn- Ion Intercalation - ACS Nano - 2024
8) Facet-Termination Promoted Uniform Zn (100) Deposition for High-Stable Zinc-Ion Batteries - Advanced Energy Materials - 2023
9) Building Near-Unity Stacked (002) Texture for High-Stable Zinc Anode - Advanced Functional Materials - 2023
10) Electrochemically Induced Phase Transformation in Vanadium Oxide Boosts Zn- Ion Intercalation - ACS Nano - 2024
11) Facet-Termination Promoted Uniform Zn (100) Deposition for High-Stable Zinc-Ion Batteries - Advanced Energy Materials - 2023
12) Building Near-Unity Stacked (002) Texture for High-Stable Zinc Anode - Advanced Functional Materials - 2023
13) Building Near-Unity Stacked (002) Texture for High-Stable Zinc Anode - Advanced Functional Materials - 2023
14) Facet-Termination Promoted Uniform Zn (100) Deposition for High-Stable Zinc-Ion Batteries - Advanced Energy Materials - 2023
15) Electrochemically Induced Phase Transformation in Vanadium Oxide Boosts Zn- Ion Intercalation - ACS Nano - 2024
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