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High‐entropy alloys (HEAs) are attracting increased attention as an alternative to noble metals for various catalytic reactions. However, it is of great challenge and fundamental importance to develop spatial HEA heterostructures to manipulate d‐band center of interfacial metal atoms and modulate electron–distribution to enhance electrocatalytic activity of HEA catalysts. Herein, an efficient strategy...
Developing quasi‐solid‐state electrolytes with superior ionic conductivity and high mechanical strength is urgently desired to improve the safety and cycling stability of lithium‐metal batteries. Herein, a novel solid‐like electrolyte (SLE) with enhanced Li+ interfacial transfer kinetics is rationally designed by soaking bulk nanostructured silica–polymer composites in liquid electrolytes. Benefiting...