We focus on the design of advanced materials for activating small molecule transformation reactions that are relevant to renewable energy conversion and commodi...
Inorganic
Our Inorganic Chemistry program explores and advances fundamental principles and practical applications of transition metal and main-group chemistry encompassing molecular and nanostructure assembly, materials synthesis, solid-state and surface chemistry, bioinorganic chemistry, photochemical and electrochemical catalysis, information processing, and energy storage and conversion.
Controllable, reversible, and readable interconversion between two stable states of a molecule is a topic of fundamental and practical importance. Our research...
The Lee group is actively exploring new materials and catalysis to contribute to a sustainable future, focusing on fundamental organometallics and main group ch...
Our research goal is to investigate fundamental inorganic and bioinorganic chemical principles by learning from nature and then adapt these concepts to future c...
Our goal is to develop a new generation of biosensors, therapeutic agents, or cell-based assays created from highly functional nanomaterials/structures and biom...
Our research lies in the interdisciplinary studies of inorganic chemistry, biochemistry, protein engineering that we employ spectroscopic, kinetic, thermodynami...
