2023 - Research.com Rising Star of Science Award
2022 - Research.com Rising Star of Science Award
His scientific interests lie mostly in Anode, Electrolyte, Chemical engineering, Energy storage and Electrochemistry. He mostly deals with Lithium metal in his studies of Anode. His work in Lithium metal addresses issues such as Graphene, which are connected to fields such as Oxide.
His work in Electrolyte addresses subjects such as Polymer, which are connected to disciplines such as Ceramic and Ionic conductivity. His study in the fields of Nanoporous under the domain of Chemical engineering overlaps with other disciplines such as Current density. His Electrochemistry study incorporates themes from Inorganic chemistry and Carbon.
Dingchang Lin mainly focuses on Anode, Electrolyte, Lithium, Chemical engineering and Nanotechnology. His Anode study combines topics from a wide range of disciplines, such as Composite number, Composite material and Electrochemistry. His research integrates issues of Inorganic chemistry and Polymer in his study of Electrolyte.
As a part of the same scientific study, Dingchang Lin usually deals with the Lithium, concentrating on Layer and frequently concerns with Microscale chemistry. His Chemical engineering study integrates concerns from other disciplines, such as Oxide, Coating, Adsorption and Mesoporous material. His Lithium metal study which covers Metal anode that intersects with Lithium dendrite and Engineering physics.
Dingchang Lin spends much of his time researching Lithium, Anode, Tortuosity, Graphene and Oxide. His studies in Lithium integrate themes in fields like Extraction, Inorganic chemistry, Intercalation, Crystal structure and Overpotential. He merges Anode with Cathode in his study.
His biological study spans a wide range of topics, including Lithium–sulfur battery, Faraday efficiency and Chemical engineering. His Graphene research includes elements of Porosity, Composite number and Nucleation. His Oxide research is multidisciplinary, incorporating elements of Sulfur and Dissolution.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Reviving the lithium metal anode for high-energy batteries
Dingchang Lin;Yayuan Liu;Yi Cui;Yi Cui.
Nature Nanotechnology (2017)
Layered reduced graphene oxide with nanoscale interlayer gaps as a stable host for lithium metal anodes.
Dingchang Lin;Yayuan Liu;Zheng Liang;Hyun-Wook Lee.
Nature Nanotechnology (2016)
High-efficiency oxygen reduction to hydrogen peroxide catalysed by oxidized carbon materials
Zhiyi Lu;Guangxu Chen;Samira Siahrostami;Zhihua Chen.
Nature Catalysis (2018)
Lithium-coated polymeric matrix as a minimum volume-change and dendrite-free lithium metal anode.
Yayuan Liu;Dingchang Lin;Zheng Liang;Jie Zhao.
Nature Communications (2016)
An Artificial Solid Electrolyte Interphase with High Li-Ion Conductivity, Mechanical Strength, and Flexibility for Stable Lithium Metal Anodes.
Yayuan Liu;Dingchang Lin;Pak Yan Yuen;Kai Liu.
Advanced Materials (2017)
Materials for lithium-ion battery safety
Kai Liu;Yayuan Liu;Dingchang Lin;Allen Pei.
Science Advances (2018)
Composite lithium metal anode by melt infusion of lithium into a 3D conducting scaffold with lithiophilic coating.
Zheng Liang;Dingchang Lin;Jie Zhao;Zhenda Lu.
Proceedings of the National Academy of Sciences of the United States of America (2016)
Enhancing ionic conductivity in composite polymer electrolytes with well-aligned ceramic nanowires
Wei Liu;Seok Woo Lee;Dingchang Lin;Feifei Shi.
Nature Energy (2017)
High Ionic Conductivity of Composite Solid Polymer Electrolyte via In Situ Synthesis of Monodispersed SiO2 Nanospheres in Poly(ethylene oxide).
Dingchang Lin;Wei Liu;Yayuan Liu;Hye Ryoung Lee.
Nano Letters (2016)
Rapid water disinfection using vertically aligned MoS2 nanofilms and visible light
Chong Liu;Desheng Kong;Po Chun Hsu;Hongtao Yuan.
Nature Nanotechnology (2016)
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