Xinyong Tao 陶新永
Zhejiang University of Technology
H-index: 75
Asia-China
Top articles of Xinyong Tao 陶新永
Title | Journal | Author(s) | Publication Date |
|---|---|---|---|
A LaCl3-based lithium superionic conductor compatible with lithium metal | Nature | Yi-Chen Yin Jing-Tian Yang Jin-Da Luo Gong-Xun Lu Zhongyuan Huang | 2023/4/6 |
Designing biomass-integrated solid polymer electrolytes for safe, energy-dense lithium metal batteries | Ouwei Sheng Chengbin Jin Tao Yang Zhijin Ju Jianmin Luo | 2023 | |
High‐Performance Solid Lithium Metal Batteries Enabled by LiF/LiCl/LiIn Hybrid SEI via InCl3‐Driven In Situ Polymerization of 1,3‐Dioxolane | Small | Tianqi Yang Wenkui Zhang Yaning Liu Jiale Zheng Yang Xia | 2023/6/17 |
Stretchable, Ultratough, and Intrinsically Self‐Extinguishing Elastomers with Desirable Recyclability | Advanced Science | Yijiao Xue Jinyou Lin Tao Wan Yanlong Luo Zhewen Ma | 2023/3 |
Surface engineering toward stable lithium metal anodes | Science Advances | Gongxun Lu Jianwei Nai Deyan Luan Xinyong Tao Xiong Wen (David) Lou | 2023/4/5 |
High performance Zn anodes enabled by a multifunctional biopolymeric protective layer for a dendrite-free aqueous zinc-based battery | Journal of Materials Chemistry A | Lingzhi Kang Jiale Zheng Huadong Yuan Jianmin Luo Yao Wang | 2023 |
Considerable molecular interactions enable robust electrochemical properties: hydrogen bonds in lithium-ion batteries | Dan Duan Xiaohan Cai Cong Ma Zongxi Lin Yao Wang | 2023/7 | |
Solid polymer electrolytes in all-solid-state lithium metal batteries: From microstructures to properties | Zongxi Lin Ouwei Sheng Xiaohan Cai Dan Duan Ke Yue | 2023/6/1 | |
Stable operation of lithium metal batteries with aggressive cathode chemistries at 4.9 V | Angewandte Chemie International Edition | Zhihong Piao Hong‐Rui Ren Gongxun Lu Kai Jia Junyang Tan | 2023/4/3 |
A critical review on composite solid electrolytes for lithium batteries: design strategies and interface engineering | Tianqi Yang Cheng Wang Wenkui Zhang Yang Xia Hui Huang | 2023/6/2 | |
Formation of Prussian blue analog coronal nanomaterials and their conversion into Mn–Co-mixed selenide for enhanced electrocatalytic oxygen evolution | Materials Chemistry Frontiers | Xiaohu Guo Ke Yue Jiale Zheng Zaoli Yu Yao Wang | 2023 |
Rapidly Constructing Sodium Fluoride‐Rich Interface by Pressure and Diglyme‐Induced Defluorination Reaction for Stable Sodium Metal Anode | Small | Wu Zhang Xiaoke Yang Juncheng Wang Jiale Zheng Ke Yue | 2023/5 |
Interfaces in Sulfide Solid Electrolyte-Based All-Solid-State Lithium Batteries: Characterization, Mechanism and Strategy | Zhan Wu Xiaohan Li Chao Zheng Zheng Fan Wenkui Zhang | 2023/12 | |
Highly Thermostable Interphase Enables Boosting High‐Temperature Lifespan for Metallic Lithium Batteries | Small | Jiale Zheng Juncheng Wang Tianqi Guo Yao Wang Jianwei Nai | 2023/4 |
Overcrowded Additive in Electrolyte and Crystalline Li2CO3 Artificial Solid Electrolyte Interphase on TiNb2O7 Anode Enable Long Lifespan Aqueous Lithium-Ion … | ACS Applied Energy Materials | Haoyang Zhao Jun Zhang Tianqi Yang Zheyu Jin Xinping He | 2023/5/2 |
Interfacial structure design of MXene-based nanomaterials for supercapacitors and batteries | Jianmin Luo Xinyong Tao | 2023/1/1 | |
A voltage-driven dissoluble electrolyte additive enables high-rate and ultralong-life lithium metal batteries | Yongcai Qiu Qingshuai Xu Tan Li Zhijin Ju Xuejun Lai | 2023/1/11 | |
Electron-microscopical visualization on the interfacial and crystallographic structures of lithium metal anode | Jiale Zheng Mei Chen Huadong Yuan Jianmin Luo Yao Wang | 2023/7/16 | |
Ti3CNTx MXene/rGO scaffolds directing the formation of a robust, layered SEI toward high-rate and long-cycle lithium metal batteries | Energy Storage Materials | Baolin Zhang Zhijin Ju Qifan Xie Jianmin Luo Li Du | 2023/4/1 |
Mechanistic insights into the processes of the initial stage of electrolyte degradation in lithium metal batteries | Chinese Chemical Letters | Yao Wang Juncheng Wang Jianwei Nai Jianmin Luo Xinyong Tao | 2024/3/1 |
Co-Authors
