Research field (4):
Applied physics - general
, Machine materials and mechanics
, Electric/electronic material engineering
, Electronic devices and equipment
Research keywords (1):
ダイヤモンド、ワイドギャップ半導体、光・電子デバイス、MEMS、センサ
Research theme for competitive and other funds (11):
2020 - 2024 Develop a carrier control method for diamond using heterojunction doping technique
2020 - 2023 革新的な高機能・高信頼ダイヤンモンド MEMSの基盤構築と磁気センサの応用
2016 - 2021 Development of diamond electron device using III-nitride nanolaminate singularity structure
2015 - 2019 Diamond NEMS logic for extrem environments
2013 - 2017 Development of new diamond electron device using huge polarization charge
2012 - 2014 The creation of single crystal diamond MEMS/NEMS switch
2010 - 2012 Bridging nanowires for deep ultra-violet detectors
2009 - 2010 Development of high-temperature and high-sensitivity diamond MEMS strain sensor
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Papers (253):
Zilong Zhang, Keyun Gu, Guo Chen, Masataka Imura, Meiyong Liao. Electrical actuation of single-crystal diamond MEMS resonators at high temperatures. Functional Diamond. 2024
Keyun Gu, Zilong Zhang, Guo Chen, Liwen Sang, Jian Huang, Yasuo Koide, Meiyong Liao. Ultrahigh Responsivity of Diamond-based Solar-blind Photodetectors Using Hydrogen Plasma Treatment. 2024 IEEE 19th International Conference on Nano/Micro Engineered and Molecular Systems (NEMS). 2024. 1-4
Guo Chen, Zilong Zhang, Keyun Gu, Liwen Sang, Satoshi Koizumi, Masaya Toda, Yasuo Koide, Zhaohui Huang, Meiyong Liao. High-order resonance of single-crystal diamond MEMS with high-quality factor at high temperatures. 2024 IEEE 19th International Conference on Nano/Micro Engineered and Molecular Systems (NEMS). 2024. 1-4
Zilong Zhang, Keyun Gu, Guo Chen, Yasuo Koide, Satoshi Koizumi, Meiyong Liao. Diamond NEMS Resonators for Real-Time Dual Sensing of Magnetic Fields and Temperatures up to 500°C. 2024 IEEE 19th International Conference on Nano/Micro Engineered and Molecular Systems (NEMS). 2024. 1-5
Keyun Gu, Zilong Zhang, Guo Chen, Jian Huang, Yasuo Koide, Satoshi Koizumi, Wen Zhao, Meiyong Liao. Oxygen-termination effect on the surface energy dissipation in diamond MEMS. Carbon. 2024
Z. Zhang, L. Sang, H. Wu, J. Huang, L. Wang, S. Koizumi, Y. Kodie, M. Liao. Galfenol-Ti-Diamond Multilayer MEMS Resonator for Magnetic Sensor Working up to 773 K. Technical Digest - International Electron Devices Meeting, IEDM. 2019. 2019-December
2016 - 現在 Nanophotonics and Micro/Nano Optics International Conference (NANOP) Scientific Committee
Awards (2):
2022/06 - Internationa Conference on New Diamond and Nano Carbons Young Scholar Award Enhancement of Magnetic Sensing Performances of Single-crystal Diamond Resonators through Various Interlayers
2008/05 - International Conference on New Diamond and Nano Carbons 2008 Outstanding Poster Award