David Yu-Kai ChenVIEW
Doo Soo ChungVIEW
Taek Dong ChungVIEW
Byung Hee HongVIEW
B. Moon KimVIEW
Kyoung Taek KimVIEW
Seok hee KimVIEW
Seong Keun KimVIEW
Zee Hwan Kim VIEW
Hong Geun LeeVIEW
Hyung Ho LeeVIEW
Jung Ho LeeVIEW
Nam Ki LeeVIEW
Seung Bum ParkVIEW
Pil Joon SeoVIEW
Woon Ju SongVIEW
Total synthesis, a research field that renders the preparation of larger molecular constructs from their structurally simplified progenitor(s) through a series of carefully coo..
Our lab"s interest and focus is heavily on synthesis. With the powerful tool of synthesis in hand, we can make molecules regardless of their sizes (either small organic molecule..
Optical Force Chromatography
B.S. Chemistry, Seoul National University, Korea, 1981
M.S. Chemistry, Seoul Na..
We are exploring the electrochemical wonderland of various interfaces such as nano scale electrode surfaces and biological cell membranes. Nano-interface electrochemistry offers..
The long-term vision is to develop super-functional 2-dimensional nanomaterials with enhanced physical/chemical & electrical/mechanical properties to overcome the current limits..
Hong"s group research involves the fields of molecular recognition and supramolecular chemistry. A major focus of the group is on the development of organic functional materials..
Wet chemical synthesis, thermal and microwave preparation, laser-induced fabrication, electrochemical integration, and device build-up method are mainly employed in..
As a theoretical and computational chemistry group, we are currently interested in understanding structure and dynamics of complex chemical, biophysical, and nano-scale systems...
Research in Professor Kang"s group focuses on the study of chemical problems on various types of surfaces and interfaces by using modern spectroscopic methods. Part of our resea..
Our research in organic chemistry is focused on the development of efficient synthetic methodologies related to the synthesis of physiologically important compounds and the adva..
Our research is centered on the discovery and development of new chemistry to synthesize polymers, block copolymers, and materials having structural sophistication and definition..
Seokhee Kim studied chemistry and earned his B.S. from Seoul National University, Korea, in 2001. He started his doctoral research at Princeton University with Dr. Daniel Kahne and..
We use spectroscopic, microscopic, and computational methods to investigate a wide range of subjects from molecular physics to nanoscience to cell biology. We study small molecu..
Neuroscience, the study of the brain, is a highly integrated discipline and is one of the most rapidly advancing areas of modern science. We all know that our brain enables all o..
The Kim"s group is studying the fundamental light-molecule interactions that occur in nanometer scale. Broadly, our research interests include spectroscopy of individual nanostr..
Our program is broadly based on modern organic chemistry (organic synthesis, organometallic chemistry, asymmetric catalysis, natural product total synthesis, bioorganic chemistr..
Controllable, reversible, and readable interconversion between two stable states of a molecule is a topic of fundamental and practical importance. Our research group is explori..
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 small molecules as..
The protein-protein (or membrane lipid) interplays are central to almost every aspect of cell biology. We are interested in fundamental questions of how the interactions between ..
We use nuclear magnetic resonance (NMR) spectroscopy to gain insight into protein aggregation processes and biomolecular interactions. Intrinsically disordered proteins (IDP), wh..
The research interests in my group are within the general area of reaction kinetics and dynamics of molecules in condensed phases. In particular, the current research efforts ar..
Research Objective is regarding understanding materials properties as a function of size, fundamental scientific phenomena at a nanoscale by single species spectroscopy and tail..
The objective of our research group is the development of biosignal-responsive functional materials. Biosignals such as pH, temperature, reduction potentials, ionic strength can..
Our research goal is to investigate fundamental inorganic and bioinorganic chemical principles by learning from nature and then adapt these concepts to future catalyst designs fo..
I work in the history of science in Korea, focusing particularly on the modern transformation of Korean science from seventeenth to early twentieth century. Specifically my rese..
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 a wide range of e..
Our research interests encompass biotechnological multi-disciplinary topics based on the collective understanding of the surface chemistry of biochips and nanomaterials to devel..
Our goal is to develop a new generation of biosensors, therapeutic agents, or cell-based assays created from highly functional nanomaterials/structures and biomolecules importan..
The main research interest of our group is developing new single-molecule and single-cell imaging techniques for investigating various biological phenomena. We are using single-..
All biological processes of life are controlled by complex networks of chemical reactions between inorganic and organic materials and biological molecules, including nucleic acid..
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 as well as to uti..
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 are located in highl..
In the eukaryotic nucleus, DNA wraps around histone octamers to form nucleosomes. The nucleic acids and histones frequently undergo chemical modifications, and these modification..
Our ultimate goal is to understand detailed mechanisms underlying biological phenomena using computational and theoretical tools, and to contribute to curing diseases using the ..
Our research interests are in the area of theoretical and computational chemistry. Understanding the properties and the changes of materials at the molecular level is the essenc..
Our research involves developing novel electronic, photonic, magnetic, and catalytic materials based on soft materials including polymers, colloids, and liquid crystals. We part..
Our research lies in the interdisciplinary studies of inorganic chemistry, biochemistry, protein engineering that we employ spectroscopic, kinetic, thermodynamic, and biochemical..
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