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교수소개 - 화학과

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  • 교수 물리화학
  • 부진효 홈페이지 바로가기

[관심분야]

Synthesis of Advanced Functional Materials for IT, ET, NT & BT Applications (OTFTs, OLEDs, Sensors, etc.)

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  • 교수 무기화학
  • 권영욱 홈페이지 바로가기

[관심분야]

My research interests on materials issues related with environment and energy. Currently, my group is focusing on two separate projects. In one of them, we are trying to develop CO2absorbentsthatcanbeusedrepetitivelyinthetemperaturerangeof300-500°C. Such a material is considered to be an integral part for the development of a carbon capture process which may become a major workhorse in reducing the emission of CO2and,hence,inaddressingtheissueofglobalwarming.Intheotherproject,wearetryingtounderstandandutilizesonochemistryinobtainingnovelnanomaterials.Especially,wehavedevelopedanewreactionschemetosynthesizecore-shellnanoparticleswithPtintheshellandvariousmetalsinthecore,whichfeaturesarehighlysoughtforinmanyapplicationfieldsincludingcatalysisforfuelcells.

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  • 교수 물리화학
  • 김성규 홈페이지 바로가기

[관심분야]

Spectroscopy, Nanochemistry, Computational chemistry

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  • 교수 무기화학
  • 이순원

[관심분야]

Our research group is currently interested in organometallic compounds of late transition metals, coordination polymers, flame-retardant inorganic materials, and MOCVD sources.

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  • 교수 유기화학
  • 유찬모

[관심분야]

Design of new asymmetric reactions and their synthetic applications: i. Asymmetric catalysis ii. Asymmetric carbonyl additions iii. Natural products synthesis

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  • 교수 분석화학
  • 손용근 홈페이지 바로가기

[관심분야]

Electrochemical biosensors based on conducting polymer microstructures Electrochemical ion separation with a conducting polymer modified porous membrane Study molecular insulation layer for molecular devices Development of recycling process of rare resources from discarding LCD Sensor materials detecting industrial hazard leaks inducing a fatal wound

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  • 교수 유기화학
  • 송충의 홈페이지 바로가기

[관심분야]

Asymmetric Hydrogen-Bond Catalysis Asymmetric Catalysis On Water Asymmetric Catalysis in Confined Spaces Biomimetic Asymmetric Catalysis

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  • 교수 유기화학
  • 윤승수 홈페이지 바로가기

[관심분야]

Organic Electronic Materials Chemical sensors

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  • 교수 무기화학
  • 정덕영 홈페이지 바로가기

[관심분야]

Polydopamine-Inorganic Nanocomposites

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  • 교수 생화학
  • 김양균 홈페이지 바로가기

[관심분야]

The main research theme in my laboratory is synthetic biology, which is an emerging field that covers wide range of areas, from the classical protein engineering to metabolic engineering. Since my Ph.D study, I have been interested in nucleic acid binding proteins as well as nucleic acids. Most works have focused on developing new tools to control gene expression and designing new proteins with novel functions. Currently research topics in my lab can be classified as follows: Protein and Nucleic acid chemistry: Structural and functional study of protein-nucleic acid interaction. Bioengineering: Developing tools for molecular biology and gene therapy. Nanobio-Chemisty: Assembling nanostructures using biomaterials and inorganic materials.

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  • 교수 유기화학
  • 이효영 홈페이지 바로가기

[관심분야]

(1) Organic semi-conducting materials and devices including non-volatile molecular/organic resistive memory (M/O RM), organic thin film transistor (OTFT), organic light emitting diode (OLED), and organic photovoltaic cell (OPC) materials and devices. (2) 2D materials including graphene oxide, reduced graphene oxide, graphene quantum dots, flexible transparent electrodes using Ag and Cu nanowires and nanoparticles. (3) Transition metal dichalconide (TMD) materials and devices

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  • 교수 무기화학
  • 김지만 홈페이지 바로가기

[관심분야]

Research interests of our group are various aspects of science and technology, ranging from fundamental research to possible industrial applications. Our researches are focused on design and synthesis of noble nanoporous materials, especially mesoporous materials, and nanostructured materials such as nanoparticles and nanowires. The nanoporous materials have attracted much attention in the fields of nano-chemistry, nanotechnology, and supramolecular chemistry due to their ordered nano-porosity (1~30nm). Generally, the nanoporous materials are synthesized by self-assembly and polymerization between organic pore generator and inorganic framework precursors. We have been developing new synthetic strategies for the materials in order to give new structures and functionalities. Applications of the nanoporous materials as the catalytic, electronic and energy materials are also our main interests.

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  • 교수 유기화학
  • 류도현 홈페이지 바로가기

[관심분야]

Major research interests are the development of asymmetric organic catalyst and its application to asymmetric reaction, total synthesis of biologically important molecules, chemical biology based on natural product and functional organic compounds. In details, my group develops various catalysts including chiral cation organocatalyst, DMAP based organocatalyst, chiral NHC catalyst and chiral combined Lewis acid catalyst. With these catalysts, my group studies new catalytic asymmetric reaction. For examples, asymmetric one-pot multicomponent reaction, asymmetric C-H, C-C functionalization, asymmetric Diels-Alder reaction and so on. With developed synthetic methodology, my group synthesizes useful bioactive natural products and its derivatives or functional organomaterials.

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  • 교수 물리화학
  • 이진용 홈페이지 바로가기

[관심분야]

Our research interest is focused on “Understanding of molecular functions and designing new molecules”. We have applied computational approaches to understand molecular functions observed experimentally in several subjects such as fluorescence sensors, electrochromic materials and CO2 absorption mechanism, and especially on “2D Materials and Biomolecules”. We have studied on organic magnetic materials and developed design strategy to build ferromagnetic magnetic molecules. Also, various materials such as MoS2, graphyne, TiO2 are under research. Our group have also experienced with molecular dynamics simulation which is useful to understand the properties of biomolecules such as enzyme and proteins.

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  • 교수 유기화학
  • 윤재숙 홈페이지 바로가기

[관심분야]

My research interests include the development of efficient organic synthetic methodologies based on transition metal-catalysis, asymmetric organic synthesis, polymer, and synthesis of organometallic complexes in search of new reactivity.

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  • 교수 생화학
  • 이동기 홈페이지 바로가기

[관심분야]

My laboratory focuses on understanding the structure-function relationship of nucleic acid molecules, and based on these knowledges, develops diagnostic and therapeutic tools against various diseases. Nucleic acid aptamers are short, single stranded oligonucleotides which can fold into specific three dimentional structure to bind target molecules with high affinity and specificity. My lab is focusing on generating aptamers targeting cancer cell surface marker proteins, such as pancreatic cancer cells, and trying to use this aptamer for cancer diagnostics and therapeutics. RNA interference is an endogenous gene silencing mechanism which allows short double stranded RNA (siRNA) to specifically target gene of interest and inhibit its expression. My lab has developed a variety of novel RNAi triggering molecular platforms which shows improved features over the original siRNA structures. We continue to develop next generation RNAi technologies and try to use these technologies to develop therapeutics against a variety of diseases.

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  • 교수 물리화학
  • 김영독 홈페이지 바로가기

[관심분야]

My group works in a variety of research field related to surface and interface chemistry. Using thin films technologies, surface of nanostructures is modified and these structures are used as catalysts or adsorbents for efficient removal of pollutant from the wastewater and air. Thin films of hydrophobic polymers can be deposited on nanostructures to fabricate superhydrophobic surfaces with additional functionalities such as optical transparence and electronic conductivity. My group is also active in the field of fundamental surface physical chemistry. Currently, oxidation of organic semiconductive polymer is of our interest, which can be studied using photoelectron spectroscopy and other analysis techniques. My group also works on size-selected clusters within international cooperation with the University of Konstanz in Germany.

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  • 교수 무기화학
  • 손성욱 홈페이지 바로가기

[관심분야]

My research interests are synthesis of microporous organic polymers and their applications to energy, bio, and environmental systems. Through introduction of inorganic nanomaterials to microporous organic polymers, tailored functional materials have been developed. Especially, my research group in SKKU has applied organic-inorganic composites system for electrode materials of lithium ion battery, green catalysts, and drug delivery materials.

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  • 교수 분석화학
  • 박성호 홈페이지 바로가기

[관심분야]

Our research interests are centered on the understanding and elucidation of the microscopic processes, such as electrochemistry, catalysis, chemical and biological sensors, and photovoltaics. These include the synthesis, characterization and application of various organic-inorganic nanostructured materials. Due to their unique physical and chemical properties, which lie somewhere between those of bulk and atomic species, they will be exploited for many fascinating potential uses in the future.

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  • 교수 무기화학
  • 장종산 홈페이지 바로가기

[관심분야]

Prof. Jong-San Chang has been engaged in the development of nanocatalysts and nanoporous materials including metal-organic frameworks (MOFs) and zeolites, and energy-related catalysis as well as green and sustainable chemistry including catalysis for biorefinery. Besides these areas, his present interests cover microwave synthesis, characterization, and applications of nanoporous materials and inorganic-organic hybrid materials. He has first realized the microwave synthesis of MOFs and proposed a new way for the selective surface functionalization of MOFs. Recently, he has also worked on heterogenous catalysis for biorefinery through the defunctionalization of biomass-derived chemicals to produce bioplastics monomers. He has published about 250 scientific research papers in peer-reviewed journals, contributed to edition of 4 books, and attended as an inventor about 80 patents (including 20 US patents) in the fields of nanoporous materials as well as heterogeneous catalysis. Biorefinery

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  • 부교수 분석화학
  • 윤완수 홈페이지 바로가기

[관심분야]

Nano Analytical Chemistry Nanobio sensors based on nanodevices and materials, particulary on nanogaps Probing and utilizing material properties evolving on scaling Development of nanofabrication techniques based on chemical processes Research on precision nano analytical means & tools

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  • 부교수 고분자화학
  • 송창식 홈페이지 바로가기

[관심분야]

Our research interests are (1) to design and synthesize functional polymers with novel molecular structures that can be potentially useful for sensing, energy harvesting, catalysis, etc., (2) to investigate polymer-nanomaterials interactions to give rise to novel functional hybrid materials, (3) and finally to (reversibly) assemble polymers and hybrid materials into functional devices via a bio-inspired way.

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  • 조교수Ⅱ 물리화학
  • 팽기욱 홈페이지 바로가기

[관심분야]

Polymer and glass dynamics, soft matter physics, single molecule microscopy

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  • 조교수Ⅱ
  • 허준석 홈페이지 바로가기

[관심분야]

Molecular quantum dynamics, quantum biology, photosynthesis, olfaction, energy/electron transfer, open quantum dynamics, theoretical spectroscopy, anharmonicities, quantum information, quantum simulation, quantum computing, matrix functions, matrix permanent, quantum and classical algorithms, quantum optics, quantum chemistry, coherent states, trapped-ion, superconducting circuits, and other quantum related topics in chemistry, biology and physics.