Faculty Research Profile
Hyung-Joon Shin
학력
• 2001 : Ph.D. Materials Science and Engineering, Seoul National University
• 1998 : M.S. Metallurgical Engineering, Seoul National University
• 1996 : B.S. Metallurgical Engineering, Seoul National University
주요 경력
• 2020 - Present : Professor, UNIST
• 2015 - 2020 : Associate Professor, UNIST
• 2011 - 2014 : Assistant Professor, UNIST
• 2006 - 2011 : Researcher, RIKEN, Japan
• 2002 - 2006 : Postdoctoral Researcher, Physics, Seoul National University
수상/학회/외부활동
• 2011 - 2014 : “Marquis Who’s Who in the World”
• 2010 : “Top 100 Scientists 2010” IBC., Cambridge
• 2010 : “2000 Outstanding Intellectuals of the 21st Century 2010” IBC, Cambridge
• 2001 : “The SNU Graduate Student Awards in Materials Research”
- Member of the Korean Institute of Metals and Materials
- Member of the Korean Physics Society
- Fellow of the Korean Vacuum Society
- Member of the American Vacuum Society
- Member of the American Physical Society
나노재료과학연구실
Nanoscale Materials Science Laboratory
나노 기술의 발달로 소자나 재료의 사이즈가 점차 줄어들어가고 있으며, 이로 인해 거시적 규모에서 예측 되지 못한 현상들이 무수히 발생하고 있습니다. 이러한 현상들을 이해하고, 실제 소자에 응용하기 위해서는 단원자, 단분자 레벨에서의 재료의 이해가 필수적입니다. 우리 연구실은 주사터널링 현미경 및 원자 현미경을 사용하여 반도체, 센서, 에너지 변환 및 촉매 재료 등 다양한 신소재의 모델 시스템을 구현하고 이것들의 근본적인 물성과 나노세계에서 일어나는 현상들을 규명하는 연구를 하고 있습니다. 또한 이렇게 얻은 결과들을 기초 지식을 넘어 실생활과 제품에 응용 할 수 있는 기술로 발전시키기 위한 연구를 병행하고 있습니다. 근본 원리로부터 작게는 원자부터 크게는 벌크상태의 재료까지 다양한 스케일의 재료를 탐구하고 있습니다.
Our main research interests lie in developing detailed physical and chemical understandings of nanoscale materials by means of Scanning Tunneling Microscopy (STM) and Scanning Probe Microscopy (SPM). In addition to the intrinsic properties of materials itself, we are interested in the local variations of electronic properties arising from the external perturbations. Since invention of STM in 1981, the STM studies have enabled us to observe and manipulate single atoms and molecules as well as to understand fundamental quantum phenomena. We are aiming to develop useful insights for basic questions regarding the nature of nanostructures and their interfaces, and ultimately pursue novel nanoscale devices and sensors having better performance.
Our main research interests lie in developing detailed physical and chemical understandings of nanoscale materials by means of Scanning Tunneling Microscopy (STM) and Scanning Probe Microscopy (SPM). In addition to the intrinsic properties of materials itself, we are interested in the local variations of electronic properties arising from the external perturbations. Since invention of STM in 1981, the STM studies have enabled us to observe and manipulate single atoms and molecules as well as to understand fundamental quantum phenomena. We are aiming to develop useful insights for basic questions regarding the nature of nanostructures and their interfaces, and ultimately pursue novel nanoscale devices and sensors having better performance.
연구분야
저차원재료, 촉매, 반도체, 수소 저장 / Low dimensional materials, Catalysis, Semiconductor, Hydrogen storage
Low dimensional materials, Catalysis, Semiconductor, Hydrogen storage
연구 희망분야
전하제어, 나노촉매, 단일 분자 화학, 에너지 변환 / Water splitting, Molecular electronics, Charge control, Nanocatalyst, Singlemolecule chemistry, Energy conversion, Water splitting, Molecular electronics
Water splitting, Molecular electronics, Charge control, Nanocatalyst, Singlemolecule chemistry, Energy conversion, Water splitting, Molecular electronics
연구주제
주사터널링현미경, 표면 및 계면 과학, 나노 재료, 단분자, 단원자, 나노 촉매, 수소저장
Scanning Tunneling Microscopy, Surface Science, Interface Science, Nanomaterials, Single molecule, Single atom, Nanocatalyst, Hydrogen storage
Scanning Tunneling Microscopy, Surface Science, Interface Science, Nanomaterials, Single molecule, Single atom, Nanocatalyst, Hydrogen storage
국가연구개발사업 기술 분류체계
국가과학기술표준분류
EB. 재료 > EB03. 고분자재료 > EB0311. 나노소재기술
논문
• SCIENCE / Colossal grain growth yields single-crystal metal foils by contact-free annealing / Jin, Sunghwan; Huang, Ming; Kwon, Youngwoo; Zhang, Leining; Li, Bao Wen; Oh, Sangjun; Dong, Jichen; Luo, Da; Biswal, Mandakini; Cunning, Benjamin V; Bin; Seong, Won Kyung; Saxena, Manav; Ding, Feng; Shin, Hyung-Joon; Ruoff, Rodney S. / 2018-11
• PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA / Two-dimensional polyaniline (C3N) from carbonized organic single crystals in solid state / Mahmood, Javeed; Lee, Eun Kwang; Jung, Minbok; Shin, Dongbin; Choi, Hyung-Jung; Li, Feng; Lah, Myoung Soo; Park, Noejung; Shin, Hyung-Joon; Oh, Joon Hak; Baek, Jong-Beom / 2016-07
• Nature Communications / Nitrogenated holey two-dimensional structures / Mahmood, Javeed; Lee, Eun Kwang; Jung, Minbok; Shin, Dongbin; Jeon, In-Yup; Jung, Sun-Min; Choi, Hyun-Jung; Seo, Min-Jeong; Sohn, So-Dam; Park, Noejung; Oh, Joon Hak; Shin, Hyung-Joon; Baek, Jong-Beom / 2015-08
특허
• 나노결정 그래핀에서의 나선형 유래 수직 전도도/10-2023-0051844/2023
• C60 전자 수용체 특성을 이용한 OH radical 생성방법/10-2495395/2023