지속가능한 미래 화학 산업의 구축을 위해 필수적인 에너지와 환경에 관련된 다양한 화학 반응 및 분자 기반의 소재를 개발하는 연구 분야이다. 서울대 화학부에서는 친환경 유기, 무기 및 전기 화학 반응 개발과 에너지 저장 및 전환 소재 등에 대한 연구가 활발히 진행되고 있다.
We utilize the tools of synthetic chemistry, supramolecular chemistry, and nanotechnology to design dynamic materials, addressing fundamental scientific challen...
Our research is centered on the discovery and development of new chemistry to synthesize polymers, block copolymers, and materials having structural sophisticat...
The manipulation of electrons, the smallest controllable charged particles, has advanced material engineering, especially as we navigate the intersection of cla...
We use molecular simulations to solve problems that are critical in energy/bio applications. We use/develop statistical mechanics / molecular dynamics / coarse-...
Controllable, reversible, and readable interconversion between two stable states of a molecule is a topic of fundamental and practical importance. Our research...
Our research goal is to investigate fundamental inorganic and bioinorganic chemical principles by learning from nature and then adapt these concepts to future c...
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 mission is to address unmet synthetic needs to solve various problems of biomedical research. To this end, novel strategies to access natural and unnatural ...
Many of renewable energy sources exist in varied forms such as waste heat, sunlight, and even wastewater. As a result of such variety of forms, a development of...
We are exploring the electrochemical wonderland of various interfaces such as nano scale electrode surfaces and biological cell membranes. Nano-interface electr...
Our group's interests are mainly focused on the design of advanced materials for activating small molecule transformation reactions that are relevant to renewab...
Hwang's group explores sustainable chemical cycles by developing electrochemical reaction/catalyst materials/integrated devices based on the understanding of th...
