As the demand for high-energy lithium-ion batteries continues to grow, the limitations of conventional graphite anodes in terms of capacity and cycling stability become more pronounced. Now, researchers from the Institute of Physics (CAS), Harbin Institute of Technology, and University of Science and Technology Beijing, led by Professor Xuefeng Wang, have presented a comprehensive study on a LiF-Pie solid-electrolyte interphase for silicon anodes. This work offers valuable insights into the development of next-generation battery technologies that can overcome these limitations.
Why LiF-Pie Matters
Innovative Design and Features
Applications and Future Outlook
This comprehensive study provides a roadmap for designing stable solid-electrolyte interphases in high-energy lithium-ion batteries. It highlights the importance of interdisciplinary research in materials science, electrochemistry, and interface engineering to drive innovation in battery technology. Stay tuned for more groundbreaking work from Professor Xuefeng Wang’s team at the Institute of Physics, CAS!
Nano-Micro Letters
Experimental study
A LiF-Pie-Structured Interphase for Silicon Anodes
7-Jul-2025