Biography
(只提供英文版)
- Associate Professor in Department of Biomedical Engineering at The Chinese University of Hong Kong
- Research interest centers around innovating optical imaging technologies and demonstrating their applications across disciplines to generate a broader impact
- RFS project — aims to develop a cutting-edge, high-sensitivity morpho-molecular microscopy (HM3) technique that can acquire multifaceted sample information, including morphology, material types, birefringence and dynamics. By developing phase amplification and synthetic aperture imaging strategies, it is expected to significantly improve the imaging contrast and spatial resolution. Through wavelength/polarization multiplexing, the project seeks to extract molecular species and identify material types. It is envisioned that HM3 will pave the way for future advancements in neuroscience, wafer manufacturing and early-stage disease diagnosis, with an enormous impact on both the scientific community and industry.
- Awards and Honours:
- RGC Research Fellow (2025)
- Excellent Young Scientists Fund, National Natural Science Foundation of China (2024)
- Young Scientist Award, The Electromagnetics Academy (2023)
- Croucher Innovation Awards, Croucher Foundation (2019)
- Optics & Photonics Education Scholarship, Society of Photo-Optical Instrumentation Engineers (2012)
Project Title
(只提供英文版)
- High-sensitivity Morpho-Molecular Microscopy for High-throughput Imaging Applications
讚詞
周仁杰教授致力於推進定量相位成像(QPI)技術,包括開發定量相位顯微術(QPM)及其相位層析顯微術(TPM),並證實其在交叉領域的影響。協助已故Gabriel Popescu教授一起於2015年在國際光學工程學會(SPIE)發起了第一屆QPI國際會議,並自2019年起擔任會議委員會成員。早期對QPI領域的貢獻包括發明了用於對未標記細胞進行高解析度成像的白光衍射斷層掃描技術,以及開發了用於22納米/14納米/9納米節點晶圓缺陷檢測的高靈敏度QPI儀器。自2014年在麻省理工學院和香港中文大學工作以來,一直專注於解決QPI中的以下技術挑戰:(1)突破測量準確性極限至亞埃或之上,以測量隱藏的電子行為;(2)突破成像深度極限至毫米級,以實現厚組織的體內成像;(3)突破成像和數據處理速度極限,實現大規模樣本的即時分析。在香港中文大學,透過初創公司倍捷銳实现了QPI技術的產業轉化。
在研資局研究學者計畫的資助下,周仁杰教授計畫開發一種高靈敏度形態分子顯微技術(HM3),能夠獲取樣本多方面的信息,包括形態、材料類型、雙折射性和動態特徵。預期HM3技術將推動神經科學、晶片製造和早期疾病診斷的發展。












