C
Chao Wu
Researcher at University of Wollongong
Publications - 180
Citations - 8299
Chao Wu is an academic researcher from University of Wollongong. The author has contributed to research in topics: Chemistry & Medicine. The author has an hindex of 32, co-authored 145 publications receiving 5538 citations. Previous affiliations of Chao Wu include Max Planck Society & University of Michigan.
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An In-Depth Study of Zn Metal Surface Chemistry for Advanced Aqueous Zn-Ion Batteries.
Junnan Hao,Bo Li,Xiaolong Li,Xiaohui Zeng,Shilin Zhang,Fuhua Yang,Sailin Liu,Dan Li,Chao Wu,Zaiping Guo +9 more
TL;DR: A side reaction-free and dendrite-free Zn electrode is developed, the effectiveness of which is also convincing in a MnO2 /ZnS@Zn full-cell with 87.6% capacity retention after 2500 cycles.
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Challenges and Perspectives for NASICON-Type Electrode Materials for Advanced Sodium-Ion Batteries
Shuangqiang Chen,Chao Wu,Laifa Shen,Changbao Zhu,Yuanye Huang,Kai Xi,Joachim Maier,Yan Yu,Yan Yu +8 more
TL;DR: This review analyzes advantages and disadvantages of NASICON-type electrode materials and highlight electrode structure design principles for obtaining the desired electrochemical performance and gives an overview of recent approaches to enhance electrical conductivity and structural stability of cathode and anode materials based onNASICON structure.
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Self-Supported Nanotube Arrays of Sulfur-Doped TiO2 Enabling Ultrastable and Robust Sodium Storage.
TL;DR: Self-supported nanotube arrays of sulfur-doped TiO2 on metal substrates are fabricated using electrochemical anodization and subsequent sulfidation to serve as an efficient anode for sodium storage and robust rate capability, remarkably outperforming any other reportedTiO2 -based electrodes.
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An Advanced Sodium‐Ion Battery Composed of Carbon Coated Na3V2(PO4)3 in a Porous Graphene Network
TL;DR: A 3D hierarchical meso- and macroporous Na3V2(PO4)3-based hybrid cathode with connected Na ion/electron pathways is developed for ultra-fast charge and discharge sodium-ion batteries, indicating its superiority in practical applications.
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Uniform yolk–shell Sn4P3@C nanospheres as high-capacity and cycle-stable anode materials for sodium-ion batteries
TL;DR: In this article, uniform yolkshell Sn4P3@C nanospheres were facilely synthesized via a top-down phosphorized route with yolk-shell Sn@C Nanospheres as the precursor.