Materials Design for Advanced Electrochemical Systems

We design and study functional materials for electrochemical energy conversion, including catalysts, electrodes, membranes, and hybrid material systems. A central goal is to understand structure–property relationships and use this knowledge …

Electrochemical CO2 Reduction and Carbon-Neutral Technologies

We develop materials and electrochemical strategies for the conversion of CO2 into value-added chemicals and fuels. This research supports the broader goal of building circular carbon technologies and reducing reliance …

Hydrogen Production and Water Electrolysis

We investigate catalyst and electrode materials for efficient hydrogen generation. Our work addresses both fundamental electrochemical mechanisms and practical aspects of performance, stability, and system optimization.

Electrochemical Process Optimization and Scale-Up

Beyond materials discovery, SESL is interested in optimizing electrochemical processes under realistic operating conditions. We study how cell design, mass transport, electrolyte environment, and operating parameters influence overall system performance.

Albertov Zeolite Day 2026

On Thursday, June 25th, Albertov Zeolite Day 2026 took place. We were honored by the participation of Prof. Raquel Simancas from the University of Tokyo (Japan) and Prof. Changbum Jo …