As global energy storage demands diversify, the limitations of conventional aqueous batteries in extreme temperatures become more pronounced. Now, researchers from Wuhan University of Science and Technology, the University of Adelaide, and the National University of Singapore, led by Professor Kaifu Huo, Professor Yang Zheng, and Professor Yu Liu, have published a comprehensive review on wide-temperature electrolytes for aqueous alkali metal-ion batteries (AAMIBs). This work offers valuable insights into the design of next-generation energy storage systems that can operate reliably across broad temperature ranges.
Why Wide-Temperature Electrolytes Matter
Innovative Design and Features
Applications and Future Outlook
This comprehensive review provides a roadmap for developing wide-temperature electrolytes that can unlock the full potential of aqueous alkali metal-ion batteries. It emphasizes the importance of interdisciplinary research in chemistry, materials science, and engineering to drive innovation in sustainable energy storage. Stay tuned for more groundbreaking work from Professor Huo, Professor Zheng, and Professor Liu’s teams!
Nano-Micro Letters
Experimental study
Wide‑Temperature Electrolytes for Aqueous Alkali Metal‑Ion Batteries: Challenges, Progress, and Prospects
11-Aug-2025