基本信息

性别：男                          ||  現任職稱：教授

最後(hòu)學(xué)曆：博士研究生    ||  最後(hòu)學(xué)位：博士                          ||  獲學(xué)位單位：清華大學(xué)

是否留學(xué)：是                   ||  留學(xué)國(guó)别：美國(guó)                        ||  留學(xué)時(shí)間：2013-2018  

聯系方式：                      ||  郵箱：jiangzhu@bistu.edu.cn    ||  通訊地址：北京海澱區清河小營東路 12 号 北京信息科技大學(xué)光電學(xué)院

導師信息

碩導/博導：博導              ||  批碩/博導時(shí)間：2021年（博導）2018年（碩導）

在讀碩士： 10                  || 畢業碩士：2                          || 在讀博士：1                       || 畢業博士：0  

所屬院系、學(xué)科及研究方向(xiàng)

所屬學(xué)院：儀器科學(xué)與光電工程學(xué)院

所屬系：智能(néng)感知工程系

所屬學(xué)科：儀器科學(xué)與技術

研究方向(xiàng)1：生物醫學(xué)光學(xué)成(chéng)像

研究方向(xiàng)2：醫學(xué)圖像處理及人工智能(néng)診斷

研究方向(xiàng)3：生物傳感與醫學(xué)儀器

學(xué)術兼職

中國(guó)生物醫學(xué)工程學(xué)會(huì)生物醫學(xué)光子學(xué)分會(huì)青年委員，2019-2023

中國(guó)光學(xué)學(xué)會(huì)生物醫學(xué)光子學(xué)分會(huì)委員，2021-2026

《光子學(xué)報》青年編委，2022-2024 

工作簡曆

2018-至今   北京信息科技大學(xué) 教授

2013-2018   加州大學(xué)歐文分校 博士後(hòu)研究員，助理項目科學(xué)家

2009-2013   博奧生物集團有限公司 部門助理主任

2004-2009   清華大學(xué) 生物學(xué) 博士

2002-2004   華中科技大學(xué) 微電子學(xué)與固體電子學(xué) 碩士

1998-2002   華中科技大學(xué) 通信工程 學(xué)士

承擔教學(xué)任務

本科課程：生物醫學(xué)光子學(xué)

研究生課程：光電檢測技術

承擔的科研項目情況

1. 國(guó)家重點研發(fā)計劃（2022YFC3502300），2022-2025，子課題負責人

2. 國(guó)家自然科學(xué)基金面(miàn)上項目（61975019），2020-2023，主持

3. 北京市自然科學(xué)基金-北京市教育委員會(huì)科技計劃重點項目（KZ202011232050），2020-2022，主持

科研成(chéng)果

從事(shì)生物醫學(xué)光學(xué)成(chéng)像方法和精密儀器研究，目标是發(fā)展先進(jìn)醫療儀器。目前開(kāi)展光學(xué)相幹層析成(chéng)像（Optical coherence tomography，OCT）相關的方法、技術及應用研究，研究内容包括内窺成(chéng)像、血流造影成(chéng)像以及彈性成(chéng)像。已發(fā)表期刊論文50餘篇，作爲項目負責人開(kāi)發(fā)的2款醫療儀器，均獲得了中國(guó)醫療器械産品注冊證，其中1款儀器同時(shí)獲得歐盟體外診斷産品認證。

主要論文目錄

1.          Zongqing Ma, Qiaoxue Xie, Pinxue Xie, Fan Fan, Xinxiao Gao, Jiang Zhu*. HCTNet: A hybrid ConvNet-Transformer network for retinal optical coherence tomography image classification. Biosensors, 2022, 12(7): 542.

2.          Yun Tang, Jiang Zhu^*, Lianqing Zhu^*, Fan Fan, Zongqing Ma, Fan Zhang. Blood coagulation monitoring under static and flow conditions with optical coherence tomography autocorrelation analysis. Applied Physics Letters, 2022, 120: 163702.

3.          Jisheng Zhang, Fan Fan^*, Lianqing Zhu, Chongyang Wang, Xinyun Chen, Xinxiao Gao, Jiang Zhu^*. Elasticity measurements of ocular anterior and posterior segments using optical coherence elastography. Optics Express, 2022, 30(9): 14311-14318.

4.          Chaojiang Yang, Jiang Zhu^*, Lianqing Zhu^*, Fan Fan, Zongqing Ma, Fan Zhang. Rapid estimations of intensity standard deviations for optical coherence tomography angiography. Journal of Biophotonics, 2022, 15(4): e202100340.

5.          Fan Fan, Jisheng Zhang, Lianqing Zhu^*, Zongqing Ma, Jiang Zhu^*. Improving cerebral microvascular image quality of optical coherence tomography angiography with deep learning-based segmentation. Journal of Biophotonics, 2021, 14: e202100171.

6.          Chongyang Wang, Jiang Zhu^*, Lianqing Zhu^*, Jianting Liu, Fan Fan, Qiang Yang, Fan Zhang. Characterizing Rayleigh wave and longitudinal shear wave propagation for measurements of elastic moduli using optical coherence elastography. Applied Physics Express, 2021, 14: 012010.

7.          楊強, 祝連慶, 樊凡, 端木正, 朱疆^*. 正向(xiàng)切片光學(xué)相幹斷層成(chéng)像系統的信号提取方法. 光學(xué)學(xué)報, 2020, 40(7): 0711001.

8.          Jianting Liu, Jiang Zhu^*, Lianqing Zhu^*, Qiang Yang, Fan Fan, Fan Zhang. Quantitative assessment of optical coherence tomography angiography algorithms for neuroimaging. Journal of Biophotonics, 2020, 13: e202000181.

9.          Jiang Zhu^*, Jianting Liu, Lianqing Zhu^*, Chongyang Wang, Fan Fan, Qiang Yang, Fan Zhang. Optical coherence tomography angiography for mapping cerebral microvasculature based on normalized differentiation analysis. Journal of Biophotonics, 2020, 13: e202000245.

10.       Jiang Zhu^#, Aneeka M. Hancock^#, Li Qi, Klaus Telkmann, Babak Shahbaba, Zhongping Chen^*, Ron D. Frostig^*. Spatiotemporal dynamics of pial collateral blood flow following permanent middle cerebral artery occlusion in a rat model of sensory-based protection: a Doppler optical coherence tomography study. Neurophotonics, 2019, 6(4): 045012.

11.       Jiang Zhu, Xingdao He, Zhongping Chen^*. Acoustic radiation force optical coherence elastography for elasticity assessment of soft tissues. Applied Spectroscopy Reviews, 2019, 54(6): 457-481.

12.       Xiangqun Xu^#*, Jiang Zhu^#, Junxiao Yu, Zhongping Chen^*. Viscosity monitoring during hemodiluted blood coagulation using optical coherence elastography. IEEE Journal of Selected Topics in Quantum Electronics, 2019, 25(1): 7200406. (#equal contribution)

13.       Yan Li^#, Jiang Zhu^#, Jason Chen, Junxiao Yu, Zi Jin, Yusi Miao, Andrew Browne, Qifa Zhou, Zhongping Chen^*. Simultaneously imaging and quantifying in vivo mechanical properties of crystalline lens and cornea using optical coherence elastography with acoustic radiation force excitation. APL Photonics. 2019, 4: 106104. (#equal contribution)

14.       Jiang Zhu, Xingdao He, Zhongping Chen^*. Current challenges and solutions of Doppler optical coherence tomography and angiography for neuroimaging. APL Photonics, 2018, 3: 120902.

15.       Jiang Zhu, Junxiao Yu, Yueqiao Qu, Youmin He, Yan Li, Qiang Yang, Tiancheng Huo, Xingdao He, Zhongping Chen^*. Coaxial excitation longitudinal shear wave measurement for quantitative elasticity assessment using phase-resolved optical coherence elastography. Optics Letters, 2018, 43(10): 2388-2391.

16.       Jiang Zhu^#, Buyun Zhang^#, Li Qi, Ling Wang, Qiang Yang, Zhuqing Zhu, Tiancheng Huo, Zhongping Chen^*. Quantitative angle-insensitive flow measurement using relative standard deviation OCT. Applied Physics Letters, 2017, 111: 181101.

17.       Jiang Zhu^#, Yusi Miao^#, Li Qi, Yueqiao Qu, Youmin He, Qiang Yang, Zhongping Chen^*. Longitudinal shear wave imaging for elasticity mapping using optical coherence elastography. Applied Physics Letters, 2017, 110: 201101. (封面(miàn)論文)

18.       Jiang Zhu, Li Qi, Yusi Miao, Teng Ma, Cuixia Dai, Yueqiao Qu, Youmin He, Yiwei Gao, Qifa Zhou, Zhongping Chen^*. 3D mapping of elastic modulus using shear wave optical micro-elastography. Scientific Reports, 2016, 6: 35499.

19.       Xiangqun Xu^#*, Jiang Zhu^#, Zhongping Chen^*. Dynamic and quantitative assessment of blood coagulation using optical coherence elastography. Scientific Reports, 2016, 6: 24294. (#equal contribution)

20.       Jiang Zhu, Yueqiao Qu, Teng Ma, Rui Li, Yongzhao Du, Shenghai Huang, K. Kirk Shung, Qifa Zhou, Zhongping Chen^*. Imaging and characterizing shear wave and shear modulus under orthogonal acoustic radiation force excitation using OCT Doppler variance method. Optics Letters, 2015, 40(9): 2099-2102.

21.       Jiang Zhu, Xiumei Song, Guangxin Xiang, Zhengde Feng, Hongju Guo, Danyang Mei, Guohao Zhang, Dong Wang, Keith Mitchelson, Wanli Xing^*, Jing Cheng^*. A rapid automatic processing platform for bead label-assisted microarray analysis: application for genetic hearing-loss mutation detection. Journal of Laboratory Automation, 2014, 19(2): 144-152.

22.       Fengbo Xie^#, Jiang Zhu^#, Cheng Deng, Guoliang Huang^*, Keith Mitchelson, Jing Cheng^*. General and reliable quantitative measurement of fluorescence resonance energy transfer using three fluorescence channels. Analyst, 2012, 137: 1013-1019. (#equal contribution)

23.       Jiang Zhu, Ying Lu, Cheng Deng, Guoliang Huang^*, Shengyi Chen, Shukuan Xu, Yi Lv, Keith Mitchelson, Jing Cheng^*. Assessment of fluorescence resonance energy transfer for two-color DNA microarray platforms. Analytical Chemistry, 2010, 82(12): 5304-5312.

24.       Jiang Zhu^#, Cheng Deng^#, Guoliang Huang^*, Shukuan Xu, Keith Mitchelson, Jing Cheng^*. Quantitative fluorescence correction incorporating Förster resonance energy transfer and its use for measurement of hybridization efficiency on microarrays. Analytical Chemistry, 2009, 81(4): 1426-1432.