참여했던 DNA 종이접기 관련 연구가 2024 국가연구개발 우수성과 100선에 선정되었습니다(기계·소재 분야 최우수 성과). The research I participated in on DNA paper folding has been selected as one of the "Top 100 Outstanding National R&D Achievements of 2024" (recognized as the best achievement in the Machinery·Materials field). [Link]

생명공학정책연구센터에서 발간하는 2024 바이오 미래유망기술 소개 리포트에 DNA 나노모터 기술을 소개했습니다(로그인 필요). I introduced 'DNA nanomotor' technology in the 2024 emerging biotechnology report from Biotech Policy Research Center. (login required). [Link]

2024년 3월 한양대학교 ERICA캠퍼스 생명나노공학과에 임용되었습니다. I was appointed to the Department of Bionano Engineering at Hanyang University ERICA in March 2024. [Link]

참여했던 동결보호 DNA 나노소재 관련 연구가 2023 국가연구개발 우수성과 100선에 선정되었습니다. The research I participated in on cryoprotective DNA nanomaterials was selected as one of the "Top 100 Outstanding National R&D Achievements of 2023." [Link]

2022년 10월부터 2023년 3월까지 메사추세츠공과대학(MIT) 생명공학과 Mark Bathe 연구실에 방문연구원 자격으로 RNA 나노기술과 관련된 연구를 수행하였습니다. I was a visiting scholar in Mark Bathe's lab in the Department of Biological Engineering at Massachusetts Institute of Technology (MIT) From October 2022 to March 2023. I conducted research related to RNA nanotechnology. 

Another collaborative research project with Prof. Yonddae Shin's group (Seoul National University) was published in Science Advances. Synthetic DNA condensates can accelerate DNA strand displacement reactions and logic gate operation by concentrating specific reaction components. [Link] [News]

My research paper collaborated with Sungho Do (Seoul National University) was published in Nucleic Acids Research. It provides a new technique for the formation of DNA nanostructure and microgel assemblies of tunable size and viscosity based on electrostatic and hydrophobic interactions. I appreciate Prof. Yonddae Shin's group for collaboration.  [Link]