Welcome to Dr. Yu's Clean Energy and Nanomaterials Group at the USTC!
Congratulations on the acceptance of the manuscript entitled "Regulating the Li/Ni Mixing Ratio to Enhance Transition Metal-Lattice Oxygen Interaction for Achieving Long Life Lithium-Rich Layered Oxides " to Angewandte Chemie International Edition by Jialong Shen et al. !
Congratulations on the acceptance of the manuscript entitled "Anionic MOF-Derived Ni/Ni1-xO Heterojunctions with Electrochemically Induced Vacancy Reconstruction: Enabling High-Rate and Stable Room-Temperature Na–S Batteries " to Advanced Energy Materials by Yuanyuan Fan et al. !
Congratulations on the acceptance of the manuscript entitled "Vacancy-Engineered Ceria Enables 4f-Orbital-Driven Redox Catalysis for Bidirectional Sulfur Conversion in Li─S Batteries " to Advanced Materials by Jiaqin Liu et al. !
Congratulations on the acceptance of the manuscript entitled "Anion-Enriched Solvation Engineering of Ester-Based Electrolytes for Sodium Metal Batteries at -40 °C " to Angewandte Chemie International Edition by Yongjian Yang et al. !
Congratulations on the acceptance of the manuscript entitled "Dendrite-free high-capacity alkali metal batteries by two-dimensional confinement of desolvated ions " to Journal of the American Chemical Society by Mingze Ma 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.
read more
Room Temperature Sodium ion Battery.
read more
Controlled Synthesis of 1D Nanostructured Materials (e.g. nanofibers, nanotubes).
read more
4. Development of High Performance Li-S Battery
read more