Sungho Ko

Sungho Ko

전공Nano-Biosensor, Lab-on-a-chip, Biomaterial Engineering
연락처 031-881-7124 shko7@cha.ac.kr

학력

  • Ph.D. Biological Engineering, University of Missouri-Columbia (2004) (바이오센서전공)
  • M.S. Food Science, University of Arkansas-Fayetteville (2000) (식품미생물전공)
  • B.S. Food Engineering, Kyungnam University (1995)

경력

  • 2004.11 ~ 2005.05 The Pennsylvania State University 박사후연구원
  • 2005.08 ~ 2006.12 국가나노종합팹센터 선임연구원
  • 2006.12 ~ 2011.02 한국식품연구원 선임연구원
  • 2011.02 ~ 현재 차 의과학대학교 바이오공학과 부교수

  • [award winning career]
  • 2015년 국가연구개발 우수성과 100선 으로 선정(미래창조과학부 장관 주관)
  • 2010 우수연구원상, 한국식품연구원
  • 2003 최우수연구상, University of Missouri-Columbia
  • 2002 미래지도자상, 미국농생물공학회
  • 1995 최우수졸업상, 경남대학교

논문

    [Research projects]

    나노바이오기술은 차세대 핵심기술 중 가장 각광 받고 있는 분야이며, 그 중 나노바오센서/나노바이오칩 기술은 다양한 질병 조기진단 및 식품과 환경 모니터링, 효과적 세포 연구 분야에 응용 가능함.

  • 질병 조기진단용 광학 및 전기화학 나노바이오센서
  • 신약독성 평가 및 줄기세포 분화 연구를 위한 생체모방칩 혹은 Organ-on-a-chip
  • 불임 연구용 생체모방칩
  • 유전공학 기술에 의한 새로운 바이오물질 개발과 이의 바이오센싱 시스템으로의 응용
  • 식품위해물질 신속검출 및 식품공정 모니터링 바이오센서
  • 환경 모니터링 바이오센서

  • [Selected Publications (last 5 years)]
  • Rapid detection of aflabtoxin B1 by a bifunctional protein crosslinker-based surface plasmon resonance biosensor. 2014. Food Control. 36(1), 183-190 .(Corresponding author)
  • Colorimetric assay of matrix metalloproteinase activity based on metal-induced self-assembly of carboxy gold nanoparticles. 2013. Biosensors and Bioelectronics. 41: 833-839.(Corresponding author)
  • Reversible creation of nanostructures between identical or different species of materials. 2012. Applied Physics A. 108(1):41-52. (First author)
  • Preparation and application of 3C-SiC substrate to piezoelectric micro cantilever transducers. 2012. Applied Physics A. 108(1):161-170. (Corresponding author)
  • Effect of nanoliposomes on the stabilization of incorporated retinol. 2010. African Journal of Biotechnology. 9: 6158-6161 (First author)
  • Immobilization of genetically engineered fusion proteins on gold-decorated carbon nanotube hybrid films for the fabrication of biosensor platforms. 2010. Journal of Colloid and Interface Science. 350:453-458 (Co-author)
  • Fabrication of anionic sulfate-functionalized nanoparticles as an immunosensor by protein immobilization. 2010. Langmuir. 26:7355-7364 (Co-author)
  • A self-assembled fusion protein-based surface plasmon resonance biosensor for rapid diagnosis of sever acute respiratory syndrome. 2009. Talanta. 79: 295-301 (Corresponding author)
  • Directed self-assembly of gold binding polypeptide-protein A fusion proteins for development of gold nanoparticle-based SPR immunosensor. 2009. Biosensors and Bioelectronics. 24(8): 2592-2597 (First and corresponding author)
  • Energy transfer-based multiplexed assay of proteases by using gold nanoparticle and quantum dot conjugates on a surface. 2008. Analytical Chemistry. 80(12): 4634-4641 (Co-author)
  • An active mixing microfluidic system for the colorimetric analysis of intracellular enzymes. 2008. Biochip Journal. 2(1): 33-38 (Co-author)
  • Preparation of nano-liposome by sonication and pressure. 2008. Korean J. Food Sci. Technol. 40(1): 115-117 (Co-author)
  • Production technology of food nanoemulsions and its application in food industry. 2007. Food Engineering Progress. 11:237-247 (Co-author)
  • Electrochemical detection of cardiac troponin I using a microchip with the surface-functionalized poly(dimethylsiloxane) channel. 2007. Biosensors & Bioelectronics. 23(1):51-59 (First author)
  • Protein nanopatterns and biosensors using gold binding polypeptide as a fusion partner. 2006. Analytical Chemistry. 78:7197-7205 (Co-author)
  • A novel FRET-based optical fiber biosensor for rapid detection of Salmonella Typhimurium. 2006. Biosensors & Bioelectronics. 21:1283-1290 (First author)

저서/역서/편서