锂电池，实现新突破！

Core Viewpoint - The article highlights the innovative "de-localized" electrolyte design concept developed by Professor Hu Wenbin's team at Tianjin University, which significantly enhances the energy density and performance of lithium batteries, achieving breakthroughs in energy density and cycle stability [1]. Group 1: Innovation and Technology - The new high-energy metal lithium battery electrolyte design achieves an energy density of over 600 watt-hours per kilogram for pouch cells and 480 watt-hours per kilogram for module batteries, representing a 2-3 times improvement over existing commercial lithium batteries [1]. - The "de-localized" design enhances the disorder of the solvation structure by regulating the microenvironment of the electrolyte, effectively balancing the interaction between the solvent and anions [1]. - This innovation reduces the kinetic barriers at the electrode/electrolyte interface, significantly improving interface stability and providing substantial potential for performance enhancement [1]. Group 2: Application and Development - The research results were published in the academic journal "Nature" on August 13 [1]. - The team is actively promoting the technological transformation and application verification of the related results, having established a pilot production line for high-energy metal lithium batteries [1]. - The products have been successfully applied in three models of micro all-electric unmanned aerial vehicles in China, extending their endurance time by 2.8 times [1].