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Graduate School of Carbon Neutrality / 탄소중립대학원
Sung-youb, Kim 김성엽
Graduate School of Carbon Neutrality / 탄소중립대학원
+82-52-217-2387
sykim@UNIST.AC.KR
https://can.unist.ac.kr
Bldg. 112. Rm. 802
Curriculum Vitae
2019 - present : Professor, UNIST
2014 - 2019 : Associate Professor, UNIST
2009 - 2014 : Assistent Professor, UNIST
2010 - 2020 : Director, UNIST Supercomputing Center
Academic Credential
2006 : Ph.D. in Mechanical Engineering, KAIST
2000 : M.S. in Mechanical Engineering, KAIST
1998 : B.S. in Mechanical Engineering, KAIST
Awards/Honors/Memberships
2019 한국전산역학회 젊은연구자상
2017 한국멀티스케일역학회 학술상
2016 대한기계학회 CAE 및 응용역학부문 젊은연구자상
2013 미래창조과학부장관 표창
CAN is investigating various characteristics of nanoscale materials using computation, specially emphasizing on the mechanics or mechanics-mediate characteristics of them. CAN is studying the validity and limitation of continuum (solid) mechanics theories in the applications for nanoscale materials. In addition, CAN is working on tradtional CAE using FEM for various applications such as batteries, electronic skin, auxetic materials, acoustic topological insulators and so on.
Major research field
나노역학(Nanomechanics), 전산원용해석(CAE), 나노 파괴역학(Fracture Mechanics), 전위론(Dislocation theory), 기타역학(Unusual Mechanical Behavior)
Desired field of research
다수 전위(dislocation) 및 결정립계 상호 작용, 비상호성/비대칭성(non-Hermitian) 역학 이론, 기계적 위상부도체(phononic TI) 설계 및 해석, 인공지능을 활용한 재료 설계
Research Keywords and Topics
1. Phase insulator: A study on the principle and design of an artificial structure that completely propagates mechanical vibration or sound at a specific frequency or prevents propagation at all
2. Potential Theory: A study on the dynamic properties and mobility of moving potentials, such as the stress field around the material, the change in the velocity of the potential, energy loss, etc. when the potential in the material moves
3. Nano-crack: A study on the J-integral and fracture characteristics in the presence of nano-scale cracks in the material (comparative study with continuous fracture mechanics)
4. Materials with negative physical properties: Research on principles and characteristics of structures or nanomaterials with negative Poisson's ratio or coefficient of thermal expansion
5. Mechanistic specific characteristics: Study of specific structures in which the mechanical reciprocity is broken (non-reciprocity) or the symmetry of the stiffness matrix is broken (non-Hermitia
Research Publications
MORE1. International Journal of Plasticity / Inertial effect inducing drag on fast-moving dislocation in discrete systems / Soon Kim, Hokun Kim, Keonwook Kang, and Sung Youb Kim / 2020.
2. Nanoscale / Vally-dependent topological protected elastic waves using continuous graphene memebranes on patterned substrates / Jaehyung Hong, Joo Hwan Oh, Harold S. Park, and Sung Youb Kim / 2020.
3. Nature Communications / Negative Poisson's ratios in metal nanoplates / Duc Tam Ho, Soon-Dong Park, Soon-Yong Kwon, Kibog Park, and Sung Youb Kim / 2014.
Patents
1. Mass measuring devices and methodology using graphene sheets, 10-1229730 (한국), 2013
2. Graphene sheet, transparent electrode, active layer including the same, display, electronic device, optoelectronic device, battery, solar cell, and dye-sensitized solar cell including the electrode or active layer, US 9,385,281 B2 (미국), 2016
국가과학기술표준분류
- EA. 기계
- EA02. 생산기반기술
- EA0207. 예측/시뮬레이션기술
국가기술지도분류
- 기반주력산업 가치창출
녹색기술분류
- 녹색기술관련 과제 아님
- 녹색기술관련 과제 아님
- 999. 녹색기술 관련과제 아님
6T분류
- NT 분야
- 나노소재
- 030211. 나노소재기술 (나노분말소재, 광학용 나노소재, 고기능 시너지 소재, 촉매/환경/기능소재에 중점)
