Narrative CV

張允崇博士在美國北卡羅來納州立大學電機與電腦工程系取得博士學位，目前為中研院應科中心的研究員。張博士的專長領域為奈米光子學、電漿子學與光電元件。他的研究興趣主要著重於開發創新的奈米製程技術並推動奈米光子元件的產業化。張博士的研究方向著重發展低成本且高通量的奈米製程，尤其專長開發奈米球相關製程。經過超過10年的開發，他的團隊開發且命名的奈米球鏡微影術已經可以用來製作複雜的三維奈米結構陣列來應用於奈米光學元件的商業應用。目前他的團隊也是世界上奈米球相關製程技術的領先團隊。

張博士目前與國內外不同的研究團隊合作研究包括包括電漿子積體光學與超穎介面雷射等不同的題目。另外他也主動參加許多國際學會的工作，目前他是國際學會SPIE及IEEE的資深會員並且擔任台灣光電學會的教育委員會主任委員。另外他也擔任華人物理學刊的副主編。

未來張博士的研究目標仍以實現奈米元件的商業應用性為主，尤其希望可以開發新一代的綠能光電元件或是可以判斷疾病初期的生物感測平台。

Education

• Ph.D. in Electrical Engineering, North Carolina State University (2001)
• B. S. in Physics, National Taiwan University (1995)

Positions and Career

• Research Fellow, Research Center for Applied Sciences, Academia Sinica (2025 - Now)
• Associate Research Fellow, Research Center for Applied Sciences, Academia Sinica (2014 - 2025)
• Adjunct Associate Professor, Dept. of Photonics, National Yang-Ming Chiao Tung Univ, (2018 - Now)
• Adjunct Associate Professor, Dept. of Physics, National Taiwan Univ. (2016 - Now)
• Adjunct Professor, Dept. of Photonics, National Cheng Kung Univ., (2014 - Now)
• Professor, Dept. of Photonics, National Cheng Kung Univ. (2013 – 2014)
• Associate Professor, Dept. of Photonics, National Cheng Kung Univ. (2008 – 2013)
• Assistant Professor, Inst. of Electro-Optical Science and Engineering, National Cheng Kung Univ. (2003 – 2008)
• Postdoctoral Research, Department of Electrical and Computer Engineering, North Carolina State University (2002 – 2003)

Honors and Awards

• 2022 IEEE Senior Member
• 2014 SPIE Senior Member
• 2012 2012 Innovative Research Award for Young Scholars, 3rd place, Taiwan Comprehensive University System

Selected Publications

• C. C. Liu, H. H. Hsiao, Y. C. Chang*, "Nonlinear Two-photon Pumped Vortex Lasing Based on Quasi-Bound States in the Continuum from Perovskite Metasurface", Science Advances, 2023/05, 9, eadf6649.
• C. Y. Li, C. C. Liu, W. C. Lai, Y. -C. Lan*, and Y. C. Chang*, "Quantifying he Plasmonic Generation Rate of Non-Thermal Hot Carriers with an AlGaN/GaN High-Electron-Mobility Transistor", Advanced Science, 2021/07, 8(13) 2100362.
• C. Y. Lin, C. C. Liu, Y. Y. Chen, K. Y. Chiu, J. D. Wu, B. L. Lin, C. H. Wang, Y. F. Chen, S. -H. Chang*, and Y. C. Chang*, "Molecular chirality detection with periodic arrays of three-dimensional twisted metamaterials", ACS Applied Materials & Interfaces, 2021/01, 11(01), 1152–1157.
• M. C. Chou, C. Y. Lin, B. L. Lin, C. H. Wang, S. H. Chang, W. C. Lai, K. Y. Lai, and Y. C. Chang*, "Polarization-Selecting III-Nitride Elliptical Nanorod Light-Emitting Diodes Fabricated with Nanospherical-Lens Lithography", ACS Nano, 2018/08, 12(08), 8748–8757.
• Y. H. Chien, C. H. Wang, C. C. Liu, S. H. Chang, K. V. Kong, and Y. C. Chang*, "Large-scale nanofabrication of designed nanostructures using Angled Nanospherical-Lens Lithography for Surface Enhanced Infrared Absorption Spectroscopy", ACS Applied Materials & Interfaces, 2017/07, 9(29), 24917-24925.
• Y. C. Chang*, H. C. Chung, S. C. Lu, T. F. Guo, "Large-scale sub- 100nm Au nanodisk array fabricated using Nanospherical-Lens Lithography: a low-cost localized surface plasmon resonance sensor", Nanotechnology, 2013/03, 24(09), 095302.
• I. T. Chen, P. H. Chang, Y. C. Chang*, T. F. Guo*, "Lighting Up Ultraviolet Fluorescence From Chicken Albumen Through Plasmon Resonance Energy Transfer of Gold Nanoparticles", Scientific Reports, 2013/03, 3, 1505.
• Y. C. Chang*, S. C. Lu, H. C. Chung, S. M. Wang, T. D. Tsai, T. F. Guo, "High-Throughput Nanofabrication of Infra-red and Chiral Metamaterials using Nanospherical-Lens Lithography", Scientific Reports, 2013/11, 3, 3339.
• Y. H. Liao, Y. J. Chang, Y. Yoshiike, Y. C. Chang*, Y. R. Chen*, "Negatively charged gold nanoparticles inhibit Alzheimer's amyloid-beta fibrillization, induce fibril dissociation, and mitigate neurotoxicity", Small, 2012/12, 8(23), 3631-3639.
• Y. C. Chang*, S. M. Wang, H. C. Chung, C. B. Tseng, S. H. Chang, "Observation of Absorption-Dominated Bonding Dark Plasmon Mode from Metal-Insulator-Metal Nanodisk Arrays fabricated by Nanospherical-Lens Lithography", ACS Nano, 2012/04, 6(4), 3390-3396.

• C. C. Liu, H. H. Hsiao, Y. C. Chang*, “Nonlinear Two-photon Pumped Vortex Lasing Based on Quasi-Bound States in the Continuum from Perovskite Metasurface”, Science Advances, 2023/05, 9, eadf6649.
• C. Y. Li, C. C. Liu, W. C. Lai, Y. -C. Lan*, and Y. C. Chang*, “Quantifying the Plasmonic Generation Rate of Non‐Thermal Hot Carriers with an AlGaN/GaN High‐Electron‐Mobility Transistor”, Advanced Science, 2021/07, 8(13) 2100362.
• C. Y. Lin, C. C. Liu, Y. Y. Chen, K. Y. Chiu, J. D. Wu, B. L. Lin, C. H. Wang, Y. F. Chen, S. -H. Chang*, and Y. C. Chang*, “Molecular chirality detection with periodic arrays of three-dimensional twisted metamaterials”, ACS Applied Materials & Interfaces, 2021/01, 11(01), 1152–1157.
• M. C. Chou, C. Y. Lin, B. L. Lin, C. H. Wang, S. H. Chang, W. C. Lai, K. Y. Lai, and Y. C. Chang*, “Polarization-Selecting III-Nitride Elliptical Nanorod Light-Emitting Diodes Fabricated with Nanospherical-Lens Lithography”, ACS Nano, 2018/08, 12(08), 8748–8757.
• Y. H. Chien, C. H. Wang, C. C. Liu, S. H. Chang, K. V. Kong, and Y. C. Chang*, “Large-scale nanofabrication of designed nanostructures using Angled Nanospherical-Lens Lithography for Surface Enhanced Infrared Absorption Spectroscopy”, ACS Applied Materials & Interfaces, 2017/07, 9(29), 24917-24925.