卢怡君 - 香港中文大学 -

个人简介

Prof. Yi-Chun Lu received her B.S. degree in Materials Science & Engineering from the National Tsing Hua University, Taiwan, in 2007. She received her Ph.D. degree in Materials Science & Engineering from the Massachusetts Institute of Technology (MIT), Cambridge, USA in 2012. After her graduate study, she worked as a Postdoctoral Fellow in the Department of Chemistry at the Technische Universität München, Germany. Prof. Lu has been appointed as a research affiliate of MIT since 2013. She is currently an Associate Professor in the Department of Mechanical and Automation Engineering at the Chinese University of Hong Kong. B.S. Materials Science & Engineering, National Tsing Hua University, 2007 Ph.D. Materials Science & Engineering, Massachusetts Institute of Technology, 2012 Honors & Awards Founding Member of Young Academy of Science of Hong Kong Young Researcher Award (2016) University Education Award (2016) Vice-Chancellor's Exemplary Teaching Award (2014) Dean's Exemplary Teaching Award (2014) Hong Kong SAR Research Grants Council Early Career Award (2014) European Materials Research Society (E-MRS) Graduate Student Award (2011) Electrochemical Society (ECS) Battery Division Student Research Award (2010) MIT Martin Family Society of Fellows for Sustainability (2009) Taiwan National Science Council Outstanding Research Innovation Award (2007)

研究领域

Redox Flow Batteries Metal Oxygen Batteries Metal S/Se Batteries Solid State Electrolyte Flexible Batteries

近期论文

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Liang Z, Zou Q., Xie J., and Lu Y.C.*, "Suppressing singlet oxygen generation in lithium-oxygen batteries with redox mediators" Energy & Environmental Science 2020, 13, 2870-2877 Link Xie J., and Lu Y.C.*, "A retrospective on lithium-ion batteries" Nature Communications 2020, 11, Article #2499 Link Xie J., Liang Z, and Lu Y.C.*, "Molecular crowding electrolytes for high-voltage aqueous batteries" Nature Materials 2020, 19, 1006-1011 Link Zhou Y., Cong G, Chen H. Lai N.C. and Lu Y.C.*, "A Self-Mediating Redox Flow Battery: High-Capacity Polychalcogenide-Based Redox Flow Battery Mediated by Inherently Present Redox Shuttles" ACS Energy Letters 2020, 5,1732-1740, Link Wang Y., Lu Y.C., "Nonaqueous Lithium–Oxygen batteries: Reaction mechanism and critical open questions" Energy Storage Materials, 2020, 28, 235-246 Link Wang Y., Lu Y.R., Dong C.L. and Lu Y.C.*, "Critical Factors Controlling Superoxide Reactions in Lithium–Oxygen Batteries" ACS Energy Letters, 2020, 5,1355-1363 Link Li Z., Jiang H., Lai N.C., Zhao T.S., Lu Y.C.* "Designing Effective Solvent–Catalyst Interface for Catalytic Sulfur Conversion in Lithium–Sulfur Batteries" Chemistry of Materials, 2019, 31,10186-10196 Link Sun Y., Zou Q., Lu Y.C.* "Fast and Reversible Four‐Electron Storage Enabled by Ethyl Viologen for Rechargeable Magnesium Batteries" Advanced Energy Materials, 2019,1903002 Link Huang W., Zou Q., Lu Y.C.* "Ion‐Selective Membrane‐Free Dual Sulfur‐Iodine Catholyte for Low‐Cost and High‐Power Flow Battery Applications" Batteries & Supercaps, 2019,2, 941-947 Link Lai N.C., Cong G., Lu Y.C.* "A high-energy potassium–sulfur battery enabled by facile and effective imidazole-solvated copper catalysts" J. Mater. Chem. A, 2019,7, 20584-20589 Link Yang B., Jiang H., Zou Y., Liang Z., Zhao T.S., Lu Y.C.* "Critical Role of Anion Donicity in Li2S Deposition and Sulfur Utilization in Li–S Batteries" ACS Appl. Mater. Interfaces, 2019, 29, 25940-25948 Link Wang Z., Tam L.Y.S., Lu Y.C.* "Flexible Solid Flow Electrodes for High-Energy Scalable Energy Storage" Joule, In press (2019) Link Weng G.#, Yang B.#, Liu CY, Du GY, Li Elise Y,* Lu Y.C.*, "Asymmetric allyl-activation of organosulfides for high-energy reversible redox flow batteries" Energy & Environmental Science, 2019, 12, 2244-2252 Link Wang Y., and Lu Y.C.*, "Isotopic Labeling Reveals Active Reaction Interfaces for Electrochemical Oxidation of Lithium Peroxide" Angewandte Chemie International Edition, 2019, 58, 6962-6966. Link Cong G., Wang W., Lai N.C, Liang Z. and Lu Y.C.*, "A high-rate and long-life organic–oxygen battery" Nature Materials, 2019. 18, 390-396. Link Li Z., Zhou Y., Wang Y. and Lu Y.C.*, "Solvent‐Mediated Li2S Electrodeposition: A Critical Manipulator in Lithium–Sulfur Batteries" Advanced Energy Materials, 2019, 9, 1802207 Link He Q., Gorlin Y., Patel M., Gasteiger H.A, and Lu Y.C.*, "Unraveling the Correlation between Solvent Properties and Sulfur Redox Behavior in Lithium-Sulfur Batteries" Journal of Electrochemical Society, 2018, 165, 16, A4027-A4033 Link Liang Z., Zhou Y. and Lu Y.C.*, "Dynamic Oxygen Shield Eliminates Cathode Degradation in Lithium-Oxygen Batteries" Energy & Environmental Science, 2018, 11, 3500-3510 Link Li Z. and Lu Y.C.*, "Redox Flow Batteries: Want More Electrons? Go Organic!" Preview, Chem, 2018, 4, 2020 Link Wang Y., Lai N.C., Lu Y.R., Zhou Y., Dong C.L. and Lu Y.C.*, "A Solvent-Controlled Oxidation Mechanism of Li2O2 in Lithium-Oxygen Batteries" Joule, 2018, 2(11), 2018, 2364-2380 Link