탄소 중심의 유기 화합물이 갖는 구조의 특이성과 반응성을 연구하는 분야이다. 더욱더 선택적이고 효율적인 특성을 갖는 합성 방법론 개발 및 이를 이용한 복잡한 분자의 합성을 주요 연구 내용으로 한다. 개발된 반응성을 활용하여 다양한 생리활성 및 물리적 성질을 가진 기능성 물질을 창출해 내는 과정 또한 유기 화학 연구의 핵심 과제이다.
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...
Total synthesis, a research field that renders the preparation of larger molecular constructs from their structurally simplified progenitor(s) through a series ...
Our research interests encompass biotechnological multi-disciplinary topics based on the collective understanding of the surface chemistry of biochips and nanom...
The main focus of my research is the identification and development of new bioactive chemical properties, which allow us to study the complex biological system ...
Controllable, reversible, and readable interconversion between two stable states of a molecule is a topic of fundamental and practical importance. Our research...
Our program is broadly based on modern organic chemistry (organic synthesis, organometallic chemistry, asymmetric catalysis, natural product total synthesis, bi...
In a human cell, around 20,000 different human proteins are known to be expressed. These proteins are not uniformly distributed throughout the cell, but they ar...
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 ...
The Hong group conducts research at the interface of synthetic and physical organic, inorganic, and computational chemistry with an emphasis on catalytic method...
