Advanced Organic Materials Lab

첨단 유기 재료 연구실

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We design, synthesize, and characterize organic materials and seek for their applications in organic electronics. Particularly, we are interested in controlling the frontier molecular orbital energy levels by heteroatom-doping. By bottom-up approach using organic chemistry, we carefully introduce heteroatoms into the molecule and control their positions at atomic level.

Major research field

organic synthesis, synthetic methodology

Desired field of research

organic semiconductor

Research Keywords and Topics

polycyclic aromatic hydrocarbon
graphene nanoribbon
bottom-up synthesis

Research Publications

3. A. Ullah, K. H. Park, H. D. Nguyen, Y. Siddique, S. F. A. Shah, H. Tran, S. Park, S. I. Lee, K.-K. Lee, C.-H. Han, K. Kim, S. Ahn, I. Jeong, Y. S. Park,* S. Hong.* Novel Phenothiazine-Based Self-Assembled Monolayer as a Hole Selective Contact for Highly Efficient and Stable p-i-n Perovskite Solar Cells. Adv. Energy Mater. 2022, 2103175 (selected as cover picture).
2. J. Park, S. J. Kim, H. Kwon, E. Jin, K. Yoon, H. Kim, S. Shadman, W. Choe, J. Kim,* Y. S. Park.* PN-Doped tetraphenylnaphthalene: a straightforward synthetic strategy analogous to BN-annulation. Chem. Commun. 2021, 57, 12147-12150 (as the themed collection of 2021 emerging investigators).
1. P. B. Pati, E. Jin, Y. Kim. Y. Kim, J. Mun, S. J. Kim, S. J. Kang, W. Choe, G. Lee,* H.-J. Shin,* Y. S. Park.* Unveiling 79-Year-Old Ixene and Its BN-Doped Derivative. Angew. Chem. Int. Ed. 2020, 59, 14891-14895.


1. Y. Qin, R. B. Grubbs, Y. S. Park. Azide Functionalized Poly(3-hexylthiophene) and Method of Forming Same. US 8679730 (2014).
2. H. S. Chung, Y. S. Park. Method for Fabricating In-Plane Switching Mode Liquid Crystal Display Device. US 7782414 (2010).


  • NC. 화학
  • NC02. 유기화학
  • NC0209. 유기재료화학


  • 환경/에너지 프론티어 진흥
  • 031300. 에너지 소재기술


  • 녹색기술관련 과제 아님
  • 녹색기술관련 과제 아님
  • 999. 녹색기술 관련과제 아님


  • NT 분야
  • 나노소재
  • 030212. 기타 나노소재기술