Laboratory of Electrochemical Interfaces (LEI) is committed to exploring and controlling electrochemical interfaces, a crucial factor in all electrochemical-based devices. By mastering interface behavior, we can precisely tune material properties for targeted applications. Our research spans energy conversion (water splitting, solar cells, fuel cells) and energy storage (supercapacitors, lithium-ion, sodium-ion, and sulfur batteries), where interface engineering enhances efficiency and longevity. We investigate solid electrolyte interfaces, optimizing stability and ion transport. Beyond energy, our work extends to corrosion prevention, biomaterial coatings, and polymers, ensuring durability and performance. We pioneer magneto-photo catalysis, smart textiles, dye degradation, and adsorption, addressing environmental and technological challenges. Our interdisciplinary approach bridges theory and experimentation to develop next-generation materials. By controlling interfaces, we control functionality, opening new frontiers in electrochemistry. Through innovation and collaboration, we drive breakthroughs in sustainable and high-performance electrochemical systems.
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