2019: PhD, Department of Materials Science and Engineering, Pennsylvania State University
2014: BS, Department of Materials Science and Engineering, National Taiwan University
Our lab, the Electronic Ceramic Laboratory (ECL), focus on characterization of electronic ceramic utilizing advance X-ray, Electron Microscopy, and optical metrology techniques. Materials system of interest includes oxide semiconductor, transition metal dichalcogenides, and carbon nanomaterials. We work with leading semiconductor metrology teams at ITRI, NSRRC, and startups (SirenOpt, Scientific Gear, Magnitude Instrument, etc).
本實驗室- 電子陶瓷實驗室- 的研究方向著重在電子陶瓷材料的X光分析與電子顯微鏡檢測技術。我們感興趣的材料系統包含氧化物半導體、過渡金屬二硫化物、奈米碳材等。我們目前與工研院-量測中心/電鏡技術開發與應用研究室、同步輻射中心、以及國內外知名檢測新創公司皆有合作,共同開發下世代半導體檢測技術。
1. 氧化物半導體生長與檢測
2. 超導量子位元晶片檢測
3. 同步輻射X光分析
4. 低劑量輻射電子顯微鏡
5. 高壓化學生長
2024/08 - Present 臺灣大學材料系 助理教授
2024/08 - Present 工研院量測中心 技術副組長 (合聘)
2022/11 - 2024/07 工研院電光系統所 專案經理
2020/02 - 2022/09 蘋果電腦 顯示面板分析科學家
2019/08 - 2020/02 紐約州立大學石溪分校 博士後研究員
2024 TREE Award, Taiwan Research-Institute Entrepreneur Ecosystem Program, Ministry of Economic Affairs
2017 ACS National Meeting Best Poster Award, American Chemical Society
2015 NTU-UCSB Exchange Program Award, National Taiwan University
2014 TSMC Scholarship, TSMC-NTU Joint Research Center
2013 Chau-Ting Chang Award, Academia Sinica
1. Huang, H.-T.; Ward, M. D.; Wang, T.; Zhu, L.; Chaloux, B. L.; Wang, Q.; Biswas, A.; Greenberg, E.; Epshteyn, A.; Crespi, V. H.; Badding, J. V.; Strobel, T. A., Nanoarchitecture through strained molecules: cubane-derived scaffolds and smallest carbon nanothreads. Journal of the American Chemical Society., 142,42,17944-17955, (2020).
2. Huang, H.-T.; Ward, M. D.; Juhl, S. J.; Biswas, A.; Alem, N.; Badding, J. V.; Strobel, T. A., Low-dose Transmission Electron Microscopy of Highly Oriented Polyacetylene. Microscopy and Microanalysis, 24 (S1), 2030-2031, (2018).
3. Huang, H.-T.; Zhu, L.; Ward, M. D.; Chaloux, B. L.; Hrubiak, R.; Epshteyn, A.; Badding, J. V.; Strobel, T. A., Surprising Chemical Stability of Cubane under Extreme Pressure. The Journal of Physical Chemistry Letters, 9, 2031-2037, (2018).