본문 바로가기 대메뉴 바로가기
Tae-Youb Kim(Professor)

INFO

  • AffiliationETRI School
  • Majors ICT
    (Advanced Device Technology)
  • Contact Information042-860-5267
  • Major전자공학과
  • DegreePh.D.
  • Highest Level of EducationTohoku University
  • E-Mail

Field of Research

Reflective Display Research Section for Next Generation Display Research (e-paper book, electrochromic & Si Quantum dot LED)

Research Results

-  Tae-Youb Kim, Chul Huh, Nae-Man Park, Cheol-Jong Choi and Maki Suemitsu / In situ-grown hexagonal silicon nanocrystals in silicon carbide-based films/ Nanoscale Research Letters/ 2012, 7:634 -  Kim T-Y, Park N-M, Kim K-H, Sung GY, Ok Y-W, Seong T-Y, Choi C-J/Quantum confinement effect of silicon nanocrystals in situ grown in silicon nitride films./ Appl Phys Lett/ 2004, 85:5355?5357. -  김태엽,박래만,김경현,성건용/고효율실리콘 발광소자/등록번호 미국(7671337), 일본(4612053) /등록일 미국(2010-03-02), 일본(2010-10-22)

Treatise

-  Driving mechanism of high speed electrochromic devices by using patterned array[ SOLAR ENERGY MATERIALS AND SOLAR CELLS,2016-02-15] -  Electrochromic mirror using viologen-anchored nanoparticles[ MATERIALS RESEARCH BULLETIN,2016-07-15] -  Optical and Electrical Properties of electrochromic devices depending on electrolyte concentrations and cell caps[ BULLETIN OF THE KOREAN CHEMICAL SOCIETY,2016-10-04] -  Effects of pro-reducing Sb-Doped SnO2 electrodes in Viologen-anchored TiO2 Nanostructure-based electrochromic devices[ ETRI JOURNAL,2016-06-01] -  Design method of tunable pixel with Phase-Change Material for Diffractive optical elements[ ETRI JOURNAL,2016-08-15] -  Optimized ion diffusion depth for maximizing optical contrast of environmentally friendly PEDOT:PSS electrochromic devices[OPTICAL MATERIALS EXPRESS,2016-10-01] -  Double-layered Black electrochromic device with a single electrode and long-term bistability[ BULLETIN OF THE KOREAN CHEMICAL SOCIETY,2015-02-20] -  Strong visible electroluminescence from silicon nanocrystals embedded in a silicon carbide film[ APPLIED PHYSICS LETTERS,2015-05-28] -  Holographic image generation with a thin-film resonance caused by chalcogenide phase-change material[SCIENTIFIC REPORTS,2017-01-24]