통합검색
닫기
통합검색
 

대학소개

  • home
  • 대학소개
  • 교수소개
  • 화학과

교수소개 - 화학과

  • 부교수 분석화학
  • 윤완수 홈페이지 바로가기

학력 Education

  • (PhD) 2000 Seoul National University, Korea

약력/경력 Experience

  • 2001-2012 Head/Principal Research Scientist/Senior Research Scientist, KRISS
  • 2007-2012 Adjunct Professor, Department of Nanobiotechnology, UST
  • 2008-2012 Adjunct Professor, Department of Chemistry, KAIST
  • 2000-2001 Postoctoral Fellow, Harvard University
  • 2013-present Head, Research Institute of Nanobio Convergence

관심분야 Research Interest

  • 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

연구키워드 Research Keyword

  • Nanobio sensor, Nanogap, Nanomaterials, SPM, Analytical chemistry

연구성과 Major Research Achievements

  • Ferroelectric properties of individual barium titanate nanowires investigated by scanned probe microscopy, W. S. Yun, J. J. Urban, Q. Gu, and H. Park, Nano Letters, 2, 447 (2002).
  • Size-controlled synthesis of machinable single crystalline gold nanoplates, C. S. Ah, Y. J. Yun, H. J. Park, W.-J. Kim, D. H. Ha, and W. S. Yun, Chem. Mater. 17, 5558 (2005).
  • Fabrication of integrated nano-gap electrodes by surface-catalyzed chemical deposition, C. S. Ah, Y. J. Yun, J. S. Lee, H. J. Park, D. H. Ha, and W. S. Yun, Appl. Phys. Lett. 88, 133116 (2006).
  • Origin of gate hysteresis in carbon nanotube field-effect transistors, J. S. Lee, S. Ryu, K. Yoo, I. S. Choi, W. S. Yun, and J. Kim, J. Phys. Chem. C 111, 12504 (2007).
  • Electric property evolution of structurally defected multilayer graphene, K. Kim, H. J. Park, B.-C. Woo, K. J. Kim, G. T. Kim, and W. S. Yun, Nano Letters 8, 3092 (2008).
  • Nanoparticle assembly on nanoplate, J. Heo, Y. W. Lee, M. Kim, W. S. Yun, and S. W. Han, Chem. Comm., 1981 (2009).
  • Enhanced protein immobilization efficiency on a TiO2 surface modified with a hydroxyl functional group, W.-J. Kim, C. Huh, B. S. Lee, C. S. Ah, A. Kim, H.-B. Pyo, G. Y. Sung, and W. S. Yun, Langmuir 25, 11692 (2009).
  • High Voltage-Derived Enhancement of Electric Conduction in Nanogap Devices for Detection of Prostate-Specific Antigen, H. J. Park, Y. S. Chi, I. S. Choi, and W. S. Yun, Appl. Phys. Lett., 97, 033701 (2010).