김회준
Kim, Hoe JoonDepartment of Robotics and Mechatronics Engineering
학력
- 2011 ~ 2015University of Illinois 박사
- 2009 ~ 2011University of Illinois 석사
- 2003 ~ 2009Johns Hopkins University 학사
경력
- 2017 ~ Current대구경북과학기술원 / 조교수
- 2015 ~ 2016Carnegie Mellon Univ / 박사후연구원
- 2009 ~ 2015University of Illinois at Urbana-Champaign / RA
수상실적
- 2025 총장표창 / 대구경북과학기술원
- 2022 총장표창 / 대구경북과학기술원
- 2021 총장표창 / DGIST
- 2018 최우수 논문상 / 마이크로나노시스템학회
연구실 소개
- Nano Materials and Devices Lab
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Nano Materials and Devices (NanoMAD) Lab under the direction of Dr. Hoe Joon Kim in Department of Robotics Engineering at DGIST works on thermal science, multi-functional materials, and micro/nano systems. In particular, we focus on developing advanced manufacturing processes for emerging nanomaterials and functional materials for MEMS/NEMS, device, energy, and robotics applications.
Nanomaterials and many functional materials have drawn much attention thanks to their outstanding properties. However, the current semiconductor and MEMS/NEMS technologies still heavily rely on silicon and other conventional CMOS materials. There is much need to come up with economical yet scalable manufacturing methods for the successful integration of nano- and functional materials.
With this mission in mind, NanoMAD Lab is developing advanced manufacturing processes to build future micro and nano Systems. Key thrust areas are:1. MEMS/NEMS : RF, Sensors, micro/nano heaters, assembly2. Nanomaterials : Synthesis, device integration, property measurements3. Flexible Devices : heaters, temperature/pressure sensors, transfer printing
Related Keyword
- "Self-Powered Fire Safety Indicator Based on Fabric-Based Triboelectric Nanogenerator", Energy Technology, v.13, no.10
- "Unraveling the Energy-Harvesting Performance of Antimony-Doped BaTiO3 Toward Self-Powered on-Body Wearable Impact Sensor", Energy Technology, v.13, no.9
- "Chitosan-Phytic Acid-Based Flame-Retardant Triboelectric Nanogenerator for Fire Safety Applications", Advanced Sustainable Systems, v.9, no.8
- "Interfacial Engineering in Wearable Piezoelectric Nanogenerators: A Path to Sustainable Future in Self-Powered Electronics", Advanced Sustainable Systems, v.9, no.8
- "Synergistic Piezo- and Triboelectricity in a Novel Triglycine Sulfate/Bacterial Cellulose/Chitosan Flexible Composite Nanogenerator", Small, v.21, no.32
- "초전효과 기반의 로봇그리퍼 통합 온감 센서", 최유빈. (2024-04-25). 초전효과 기반의 로봇그리퍼 통합 온감 센서. 대한기계학회 열공학부문 2024년 춘계학술대회, 428–428.
- "Self-Powered Pyroelectric Warmth Sensor for Robotic Integration and Materials Recognition", Choi, Yoobin. (2024-01-22). Self-Powered Pyroelectric Warmth Sensor for Robotic Integration and Materials Recognition. 37th IEEE International Conference on Micro Electro Mechanical Systems, MEMS 2024, 785–788. doi: 10.1109/MEMS58180.2024.10439426
- "Mixed-spinel magnesioferrite MgFe2O4 basedElectrochemical Sensor", Peter Selvaraj Mary Rajaitha. (2023-11-03). Mixed-spinel magnesioferrite MgFe2O4 basedElectrochemical Sensor. 대한기계학회 2023 학술대회, 2258–2258.
- "Visible light induced Rhodamine B Degradation using NaBiO₃ nanophotocatalysis", Jana Runia. (2023-11-03). Visible light induced Rhodamine B Degradation using NaBiO₃ nanophotocatalysis. 대한기계학회 2023 학술대회, 2259–2259.
- "Advancing the ferroelectric-based triboelectric nanogenerator via composition optimization", Sahu, Manisha. (2023-11-01). Advancing the ferroelectric-based triboelectric nanogenerator via composition optimization. IEEE SENSORS 2023, 1–4. doi: 10.1109/SENSORS56945.2023.10324897
연구 뉴스
- DGIST Develops “Two Birds with One Stone” Technology That Generates Electricity and Light Simultaneously Using Only Movement 2025-02-17
- Smart Textile to Sense Light, Pressure, Smell, and Even Taste—Successfully Developed Next-Gen Fibers That Will Change the Future of Wearable Technologies 2025-01-23
- DGIST, 움직임만으로 전기와 빛 동시에 만드는 ‘일타쌍피’기술 개발 2025-01-21
- 빛, 압력, 냄새, 맛까지 감지하는 똑똑한 섬유 등장! 웨어러블 기술의 미래를 바꿀 차세대 섬유 탄생 2025-01-09
- Generate Electricity by Attaching the Product to Your Clothes! Highly Efficient Wearable Energy Harvester Developed: 280 Times More Efficient Than Conventional Devices 2024-12-20
연구분야
미래유망 신기술(6T)
국가과학기술표준분류