Xinliang LI
City University of Hong Kong
H-index: 58
Asia-Hong Kong
Top articles of Xinliang LI
Title | Journal | Author(s) | Publication Date |
|---|---|---|---|
ICl3 作爲多電子氧化還原陰機用於高功率鋰氯電池 | LI Pei ZHI Chunyi LI Xinliang | 2024/1/4 | |
Perovskite Cathodes for Aqueous and Organic Iodine Batteries Operating Under One and Two Electrons Redox Modes | Advanced Materials | Xinliang Li Shixun Wang Dechao Zhang Pei Li Ze Chen | 2024/1 |
Bidirectional Confined Redox Catalysis Manipulated Quasi‐Solid Iodine Conversion for Shuttle‐Free Solid‐State Zn‐I2 Battery | Small | Mingli Wang Jingkang Ma Hong Zhang Lin Fu Xinliang Li | 2024/3 |
Development of an energy-dense and high-power Li-Cl2 battery using reversible interhalogen bonds | Chem | Pei Li Xinliang Li Ying Guo Ao Chen Rong Zhang | 2024/1/11 |
Manipulating coulombic efficiency of cathodes in aqueous zinc batteries by anion chemistry | Angewandte Chemie | Pei Li Yiqiao Wang Qi Xiong Yue Hou Shuo Yang | 2023/6/5 |
Development of rechargeable high-energy hybrid zinc-iodine aqueous batteries exploiting reversible chlorine-based redox reaction | Nature Communications | Guojin Liang Bochun Liang Ao Chen Jiaxiong Zhu Qing Li | 2023/4/3 |
Inducing Fe 3d Electron Delocalization and Spin-State Transition of FeN4 Species Boosts Oxygen Reduction Reaction for Wearable Zinc–Air Battery | Nano-Micro Letters | Shengmei Chen Xiongyi Liang Sixia Hu Xinliang Li Guobin Zhang | 2023/12 |
Chemical tailoring and stitching | Xinliang Li | 2023/6 | |
High-performance organic Li-bromine batteries enabled by two-electron redox chemistry | LI Xinliang ZHI Chunyi LI Pei | 2023/11/1 | |
HIGH CAPACITY, HIGH ENERGY DENSITY AND HIGH POWER REVERSIBLE Li-Cl2 BATTERY SYSTEM | LI Pei ZHI Chunyi LI Xinliang | 2023/3/31 | |
Conversion‐Type Organic‐Inorganic Tin‐Based Perovskite Cathodes for Durable Aqueous Zinc‐Iodine Batteries | Advanced Energy Materials | Shixun Wang Zhaodong Huang Bing Tang Xinliang Li Xin Zhao | 2023/6 |
Three‐Electron Transfer‐Based High‐Capacity Organic Lithium‐Iodine (Chlorine) Batteries | Angewandte Chemie International Edition | Xinliang Li Yanlei Wang Junfeng Lu Shimei Li Pei Li | 2023/10/16 |
Advancing electrochemistry: Powering electromagnetic energy conversion | Joule | Xinliang Li | 2023/3/15 |
V2CTX MXene Sphere for Aqueous Ion Storage | Energy Material Advances | Xinliang Li Mian Li Wenyu Xu Zhaodong Huang Guojin Liang | 2023/12/8 |
Grafted MXenes Based Electrolytes for 5V‐Class Solid‐State Batteries | Advanced Functional Materials | Ze Chen Xinyao Ma Yue Hou Huilin Cui Xinliang Li | 2023/6 |
Anion chemistry in energy storage devices | Zhaodong Huang Xinliang Li Ze Chen Pei Li Xiulei Ji | 2023/9 | |
An immiscible phase-separation electrolyte and interface ion transfer electrochemistry enable zinc/lithium hybrid batteries with a 3.5 V-class operating voltage | Energy & Environmental Science | Ao Chen Yaqin Zhang Qing Li Guojing Liang Shuo Yang | 2023 |
Maximizing Terahertz Energy Absorption with MXene Absorber | Nano-Micro Letters | Xinliang Li Hao Luo | 2023/12 |
Cathode Material | ZHI Chunyi LI Xinliang CHEN Ze Zhaodong HUANG | 2023/5/30 | |
Customizing MXenes | Matter | Xinliang Li | 2023/8/2 |
Co-Authors
