The growing demand for high-performance energy storage, particularly in electric vehicles and grid applications, has highlighted the limitations of conventional lithium-ion battery manufacturing. Traditional wet-processing electrode fabrication, though widely used, faces challenges such as solvent waste, limited scalability, and inconsistent microstructures. Dry electrode technology (DET) offers a promising alternative by eliminating solvents and drying steps, enhancing sustainability, cost-efficiency, and performance. This review provides a comprehensive overview of DET, emphasizing key microstructural advantages including uniform material distribution, low ion-transport tortuosity, and sup... More >