Welcome to Dr. Yu's Clean Energy and Nanomaterials Group at the USTC!
Congratulations on the acceptance of the manuscript entitled "Unraveling Water–Defect Coupled Degradation via Deuterium Isotope Labeling in Prussian Blue Analogue Cathodes for Long-Life Sodium-Ion Batteries " to Angewandte Chemie International Edition by Fangxin Ling et al. !
Congratulations on the acceptance of the manuscript entitled "Competitive Coordination and Confinement in Rigid-Flexible Networks forHigh-Rate and Ultra-Stable Quasi-Solid-State Batteries " to Advanced Energy Materials by Can Wang et al. !
Congratulations on the acceptance of the manuscript entitled "Alloy-Regulated Heterointerface Engineering for Kinetics-Driven Sulfur Redox in Li-S Batteries " to Angewandte Chemie International Edition by Tongzhen Wang et al. !
Congratulations on the acceptance of the manuscript entitled "Single-crystal low-defect manganese-based Prussian blue for sodium-ion batteries " to Energy Storage Materials by Ling Li et al. !
Congratulations on the acceptance of the manuscript entitled "Universal Electro–Chemo–Mechanical Interface Engineering toward Dendrite-Free Solid-State Lithium Metal Batteries " to ACS Energy Letters by Hanyu Huo et al. !
The research interests in Dr. Yu’s group (Clean Energy and Nanomaterials Group) are currently focused on nanomaterials and clean energy. Specifically, the research activities include synthesis of 1D nanomaterials (e. g. nanofibers, nanotubes, nanowires), porous thin films, and nanoparticles as well as their applications, e.g., as electrodes for batteries (lithium battery, sodium battery and Li-S battery). Furthermore, we also investigate the fundamental science of energy storage system and develop novel nanomaterials for energy systems and devices.
Nanostructured Electrodes for Lithium Ion Batteries.
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Room Temperature Sodium ion Battery.
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Controlled Synthesis of 1D Nanostructured Materials (e.g. nanofibers, nanotubes).
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4. Development of High Performance Li-S Battery
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