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인천대학교 화학과 로고 사이트 맵   포탈사이트 인천대학교  
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   학습자료 
전기화학연구실입니다.
ㆍ연구관심분야

교수사진

이       름

: 김규원

실  험 실   : 전기분석화학연구실, 401호
주분야 

: 전기화학을 이용한 바이오칩 및 바이오센서 연구

세부분야 

: 2~3개
  전기화학을 이용한 마이크로 및 나노패터닝
  실리콘, ITO, 및 그래핀의 표면 개질과 센서 응용
  CIGS 기반 박막형 태양전지 기술 개발

전화번호: 032-835-8235
E - Mail : Kyuwon_Kim@incheon.ac.kr

학      력



: 박사 KAIST 화학과 2002

  석사 서울대학교 화학과 1998 

  학사 KAIST 화학과 1994

Our research has been focused on developing a number of methods for immobilizing biomolecules or their ligands on various electrode surfaces such as gold, silicon, indium-tin-oxide coated glass using chemical and electrochemical techniques. Electrochemical methods have also being developed to pattern surfaces into confined regions with biomaterials including protein and cell. The approach takes advantage of the presence of the electrode surfaces underlying the molecular layer, and the use of applied electrical potentials to effect electrochemical conversions of the molecular layer.

1.“Use of 1,3-dithiane combined with aryldiazonium cation for immobilization of biomolecules based on electrochemical addressing”,

    Chem. Comm., 2009, 4865 - 4867.
2.“Electrochemically active, anti-biofouling polymer adlayers on indium-tin-oxide electrodes”, Chem. Comm., 2008, 3543 - 3545.
3.“Protein micropatterning based on electrochemically switched immobilization of bioligand on electropolymerized film of a dually

    electroactive monomer”, Chem. Comm., 2006, 4723 - 4725.
4. “Protein patterning based on electrochemical activation of bioinactive surfaces with hydroquinone-caged biotin”, J. Am. Chem.

    Soc., 2004, 126, 15368 - 15369.
5. “Washing-free electrochemical DNA detection using double-stranded probes and competitive hybridization reaction”,

    Chem. Comm., 2004, 1466 - 1467.

Our research has been focused on developing a number of methods for immobilizing biomolecules or their ligands on various electrode surfaces such as gold, silicon, indium-tin-oxide coated glass using chemical and electrochemical techniques. Electrochemical methods have also being developed to pattern surfaces into confined regions with biomaterials including protein and cell. The approach takes advantage of the presence of the electrode surfaces underlying the molecular layer, and the use of applied electrical potentials to effect electrochemical conversions of the molecular layer.
Over the past several decades, a great variety of biosensors have been extensively developed for the point-of-care (POC) diagnostics of a number of biomarkers. Especially an electrochemical detection is the most common one due to its high sensitivity, simple instrumentation, lost cost, and high portability, in terms of the signal transduction of the biorecognition events on the sensors’ surfaces. Our research has been also focused on developing highly a sensitive and selective detection method based on electrochemistry for POC
Over the past several decades, a great variety of biosensors have been extensively developed for the point-of-care (POC) diagnostics of a number of biomarkers. Especially an electrochemical detection is the most common one due to its high sensitivity, simple instrumentation, lost cost, and high portability, in terms of the signal transduction of the biorecognition events on the sensors’ surfaces. Our research has been also focused on developing highly a sensitive and selective detection method based on electrochemistry for POC
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