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Your search keyword '"Liu, Haodong"' showing total 8 results
Start Over Author "Liu, Haodong" Journal energy & environmental science
8 results on '"Liu, Haodong"'

1. Chemical and structural evolutions of Li–Mn-rich layered electrodes at different current densities

Author

He, Xin, Wu, Jue, Zhu, Zhuoying, Liu, Haodong, Li, Ning, Zhou, Dong, Hou, Xu, Wang, Jun, Zhang, Haowei, Bresser, Dominic, Fu, Yanbao, Crafton, Matthew J, McCloskey, Bryan D, Chen, Yan, An, Ke, Liu, Ping, Jain, Anubhav, Li, Jie, Yang, Wanli, Yang, Yong, Winter, Martin, and Kostecki, Robert

Subjects
Engineering, Materials Engineering, Chemical Sciences, Physical Chemistry, Energy
Abstract

Although the two active redox centers in Li-rich cathodes, including the anionic and cationic contributions, can enable Li-ion batteries to achieve outstanding specific energy, their behaviors at different current densities have not been clarified. Here, we provide a comparative study of transition metals (TMs) and oxygen redox activities by directly accessing their oxidation states in Li-rich materials operated at very different current rates. Our data reveal that the oxidation of oxygen in the near-surface region is at the same level for electrodes cycled with a wide range of current rates, indicating a reaction gradient of lattice oxygen redox reactions. The oxidation process of lattice oxygen is found to be dynamically compatible with that of the TMs. Combining the results of first principles calculations and complementary experimental findings, we propose a detailed mechanism of structural distortion from octahedral Li to tetrahedral Li and the role of oxygen vacancy in Li+ diffusion. It is found that fast delithiation occurring at high current densities can easily cause local structural transformation, leading to a limited Li+ diffusion rate and consequently suppressing rate capability.

Published
2022

2. Li-rich cathodes for rechargeable Li-based batteries: reaction mechanisms and advanced characterization techniques

Author

Zuo, Wenhua, Luo, Mingzeng, Liu, Xiangsi, Wu, Jue, Liu, Haodong, Li, Jie, Winter, Martin, Fu, Riqiang, Yang, Wanli, and Yang, Yong

Subjects
Affordable and Clean Energy, Energy
Abstract

Due to their high specific capacities beyond 250 mA h g-1, lithium-rich oxides have been considered as promising cathodes for the next generation power batteries, bridging the capacity gap between traditional layered-oxide based lithium-ion batteries and future lithium metal batteries such as lithium sulfur and lithium air batteries. However, the practical application of Li-rich oxides has been hindered by formidable challenges. To address these challenges, the understanding of their electrochemical behaviors becomes critical and is expected to offer effective guidance for both materials and cell development. This review aims to provide fundamental insights into the reaction mechanisms, electrochemical challenges and modification strategies of lithium-rich oxides. We first summarize the research history, the pristine structures, and the classification of lithium-rich oxides. Then we review the critical reaction mechanisms that are closely related to their electrochemical features and performances, such as lattice oxygen oxidation, oxygen vacancy formation, transition-metal migration, layered to spinel transitions, 'two-phase mechanism', and lattice evolution. These discussions are coupled with state-of-the-art characterization techniques. As a comparison, the anionic redox reactions of layered sodium transition metal oxides are also discussed. Finally, after a brief overview of the correlation among the aforementioned mechanisms, we provide perspectives on the rational design of lithium-rich oxides with high energy densities and long-term cycling stability. This journal is

Published
2020

4. Manipulating charge-transfer kinetics and flow-domain LiF-rich interphase to enable high-performance microsized silicon-silver-carbon composite anode for solid-state batteries

Author

Han, Xiang, primary, Gu, Lanhui, additional, Sun, Zhefei, additional, Chen, Minfeng, additional, Zhang, Yinggan, additional, Luo, Linshan, additional, Xu, Min, additional, Chen, Songyan, additional, Liu, Haodong, additional, Wan, Jiayu, additional, He, Yanbing, additional, Chen, Jizhang, additional, and Zhang, Qiaobao, additional

Published
2023
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5. Enabling highly-efficient and stable potassium-ion storage by exposing atomic-dispersed super-coordinated antimony O2Sb1N4 sites on N-doped carbon nanosheets

Author

Xiao, Bensheng, primary, Sun, Zhefei, additional, Zhang, Hehe, additional, Wu, Ying, additional, Li, Ji, additional, Cui, Jiang, additional, Han, Jiajia, additional, Li, Miao, additional, Zheng, Hongfei, additional, Chen, Jiamin, additional, Cai, Mengting, additional, Ke, Chengzhi, additional, Wang, Xuefeng, additional, Liu, Haodong, additional, Jiang, Zheng, additional, Zhang, Shilin, additional, Peng, Dong-Liang, additional, Guo, Zaiping, additional, and Zhang, Qiaobao, additional

Published
2023
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