以计算机技术为主要手段，以近红外二区生物医学成像为主题，主要研究内容包含三个方面：新型生物医学成像模型与方法，新型生物医学成像系统，活体显微成像，生物医学应用与临床转化。

长期招收光学工程、生物医学工程、计算机科学、人工智能的硕士研究生/博士研究生/博士后！也欢迎来自不同领域，包括理科、工科和交叉学科背景者，具有光学设备搭建经验和生物医学成像模型研发经验优先

博导招生专业

模式识别与智能系统，研究方向：医学影像处理与分析

计算机应用技术，研究方向：生物特征识别与系统

生物医学工程

硕导招生专业

模式识别与智能系统，研究方向：医学影像处理与分析

工作简历

• 分子影像技术研发与转化北京市重点实验室，主任，2025.12 – 至今
• 中国科学院自动化研究所，中国科学院分子影像重点实验室，副主任，2017.11 – 至今
• 中国科学院自动化研究所，中国科学院分子影像重点实验室, 研究员，2016.10 – 至今
• 中国科学院自动化研究所，中国科学院分子影像重点实验室, 副研究员，2014.11 – 2016.09
• 中国科学院自动化研究所，中国科学院分子影像重点实验室, 助理研究员，2012.09 – 2014.10

部分学术任职

• 中国生物物理学会分子影像分会，副会长
• 中国图象图形学会医学影像专业委员会，副主任
• 中国光学学会第四届生物医学光子学专业委员会，常委
• 中国生物医学工程学会医学人工智能分会第三届委员会，委员
• 中国图学学会第八届理事会，理事
• 中国研究型医院学会消化内镜分子影像学专业委员会，常务委员
• 中国核学会放射性药物分会第一届理事会，常务理事
• 中国医师协会整合医学医师分会整合肿瘤学专业委员会（学组）第一届委员会，常务委员
• 泛亚消化内镜技术创新战略联盟，常务理事
• IEEE Senior Member
• ​European Journal of Nuclear Medicine and Molecular Imaging 期刊编委
• Bioengineering期刊编委，以及多个国际SCI期刊审稿人
• 国家自然科学基金委员会医学科学部、信息科学部区域创新发展联合基金等项目评审专家

近年发表部分SCI期刊论文情况：

1. Hu Z, Fang C, Li B, Zhang Z, Cao C, Cai M, Su S, Sun X, Shi X, Li C, Zhou T, Zhang Y, Chi C, He P, Xia X, Chen Y, Gambhir SS*, Cheng Z*, Tian J*. First-in-human liver-tumour surgery guided by multispectral fluorescence imaging in the visible and near-infrared-I/II windows. Nature Biomedical Engineering. 2020; 4(3): 259-271.(被Nature Biomedical Engineering. Editorial. 2020; 4(3): 243-244; Nature Biomedical Engineering. View& News. 2020; 4(3): 245-246高度评价)
2. Chang B, Li D, Ren Y, Qu C, Shi X, Liu R, Liu H, Tian J*, Hu Z*, Sun T*, Cheng Z*. A phosphorescent probe for in vivo imaging in the near-infrared II window. Nature Biomedical Engineering. 2022; 6(5): 629-639.
3. 3. Zhang Z+, Du Y+, Shi X+, Wan K, Qu Q, Liang Q, Ma X, He K, Chi C, Tang J, Liu B, Ji* J, Wang J*, Dong J*, Hu Z*, Tian J*. NIR-II light in clinical oncology: Opportunities and challenges. Nature Reviews Clinical Oncology. 2024; 21(6): 449-467. (受邀综述)
4. Wang K+, Du Y+, Zhang Z+, He K, Cheng Z, Yin L, Dong D, Li C, Li W, Hu Z, Zhang C, Hui H, Chi C, Tian J*. Fluorescence image-guided tumour surgery. Nature Reviews Bioengineering. 2023；1(3):161-179. (受邀综述)
5. Xiao A+, Shen B+, Tian J*, Hu Z*. PP-NAS: Searching for plug-and-play blocks on convolutional neural networks. IEEE Transactions on Neural Networks and Learning Systems. 2023.
6. Xiao A, Shen B, Tian J*, Hu Z*. Differentiable randaugment: learning selecting weights and magnitude distributions of image transformations. IEEE Transactions on Image Processing. 2023; 32:2413-2427.
7. Xiao A, Shen B, Shi X, Zhang Z, Zhang Z, Tian J*, Ji N*, Hu Z*. Intraoperative glioma grading using neural architecture search and multi-modal imaging. IEEE Transactions on Medical Imaging. 2022; 41(10): 2570-2581.
8. Chen H, Shou K, Chen S, Qu C, Wang Z, Jiang L, Zhu M, Ding B, Qian K, Ji A, Lou H, Tong L, Hsu A, Wang Y, D W. Felsher, Hu Z*, Tian J*, Cheng Z*. Smart self-assembly amphiphilic cyclopeptide-dye for near-infrared window-II imaging. Advanced Materials. 2021; 33(16): 2006902.
9. Yang J, He S, Hu Z*, Zhang Z, Cao C, Cheng Z*, Fang C*, Tian J*. In vivo multifunctional fluorescence imaging using liposome-coated lanthanide nanoparticles in near-infrared-II/IIa/IIb windows. Nano Today. 2021; 38: 101120.
10. Hu Z, Chen W, Tian J*, Cheng Z*. NIRF nanoprobes for cancer molecular imaging: approaching clinic. Trends in Molecular Medicine. 2020; 26(5): 469-482. (Highlighted as Featured Article)
11. Cai M, Zhang Z, Shi X, Yang J, Hu Z*, Tian J*. Non-negative iterative convex refinement approach for accurate and robust reconstruction in Cerenkov luminescence tomography. IEEE Transactions on Medical Imaging. 2020; 39(10): 3207-3217..
12. Cai M, Zhang Z, Shi X, Hu Z*, Tian J*. NIR-II/NIR-I fluorescence molecular tomography of heterogeneous mice based on gaussian weighted neighborhood fused lasso method. IEEE Transactions on Medical Imaging. 2020; 39(6): 2213-2222.
13. Guo H, He X*, Liu M, Zhang Z, Hu Z*, Tian J*. Weight multispectral reconstruction strategy for enhanced reconstruction accuracy and stability with Cerenkov luminescence tomography. IEEE Transactions on Medical Imaging. 2017; 36(6):1337-1346.
14. Shen B, Zhang Z+, Shi X+, Cao C, Zhang Z, Hu Z*, Ji N*, Tian J*. Real-time intraoperative glioma diagnosis using fluorescence imaging and deep convolutional neural networks. European Journal of Nuclear Medicine and Molecular Imaging. 2021. DOI: 10.1007/s00259-021-05326-y.
15. Shi X, Cao C, Zhang Z, Tian J*, Hu Z*. Radiopharmaceutical and Eu3+ doped gadolinium oxide nanoparticles mediated triple-excited fluorescence imaging and image-guided surgery. Journal of Nanobiotechnology. 2021; Accpeted.
16. Zhang L, Shi X, Li Y, Duan X, Zhang Z, Fu H, Yang X, Tian J, Hu Z*, Cui M*. Visualizing tumors in real time: a highly sensitive PSMA probe for NIR-II imaging and intraoperative tumor resection. Journal of Medicinal Chemistry. 2021; Accepted and in press.
17. Zheng S, Zhang Z, Qu Y, Zhang X, Guo H, Shi X, Cai M, Cao C, Hu Z*, Liu H*, Tian J*. Radiopharmaceuticals and Fluorescein Sodium Mediated Triple‐Modality Molecular Imaging Allows Precise Image‐Guided Tumor Surgery. Advanced Science. 2019:1900159. (Highlighted as Back Cover Article)
18. Zhang Z, Cai M, Bao C, Hu Z*, Tian J*. Endoscopic Cerenkov luminescence imaging and image-guided tumor resection on hepatocellular carcinoma-bearing mouse models. Nanomedicine: Nanotechnology, Biology and Medicine. 2019; 17:62-70. (Highlighted as Featured Article and Cover Article)
19. Zhang Z, Qu Y, Cao Y, Shi X, Guo H, Zhang X, Zheng S, Liu H*, Hu Z*, Tian J*. A novel in vivo Cerenkov luminescence image-guided surgery on primary and metastatic colorectal cancer. Journal of Biophotonics. 2020; 13(3): e201960152. (Highlighted as Featured Article and Back Cover Article)
20. Zhang Z, Cai M, Gao Y, Shi X, Zhang X, Hu Z*, Tian J*. A novel Cerenkov luminescence tomography approach using multilayer fully connected neural network. Physics in Medicine and Biology. 2019; 64(24): 245010.
21. Liu M, Zheng S, Zhang X, Guo H, Shi X, Kang X, Qu Y, Hu Z*, Tian J*. Cerenkov luminescence imaging on evaluation of early response to chemotherapy of drug-resistant gastric cancer. Nanomedicine: Nanotechnology, Biology, and Medicine. 2018; 14(1):205-213. (Highlighted as Featured Article and Cover Article)
22. Hu Z, Zhao M, Qu Y, Zhang X, Zhang M, Liu M, Guo H, Zhang Z, Wang J*, Yang W*, Tian J*. In vivo three-dimensional radiopharmaceutical excited fluorescence tomography. Journal of Nuclear Medicine. 2017; 58(1):169-174.
23. Hu Z, Chi C, Liu M, Guo H, Zhang Z, Zeng C, Ye J, Wang J, Tian J*, Yang W*, Xu W*. Nanoparticle-mediated radiopharmaceutical-excited fluorescence molecular imaging allows precise image-guided tumor-removal surgery. Nanomedicine: Nanotechnology, Biology and Medicine. 2017; 13(4):1323-1331.
24. Liu M, Guo H, Liu H, Zhang Z, Chi C, Hui H, Dong D, Hu Z*, Tian J*. In vivo pentamodal tomographic imaging for small animals. Biomedical Optics Express. 2017; 8(3):1356-1371.
25. Guo H, Hu Z*, He X*, Zhang X, Liu M, Zhang Z, Shi X, Zheng S, Tian J*. Non-convex sparse regularization approach framework for high multiple-source resolution in Cerenkov luminescence tomography. Optics Express, 2017, 25(23):28068-28085.
26. Hu Z, Qu Y, Wang K, Zhang X, Zha J, Song T, Bao C, Liu H, Wang Z, Wang J, Liu Z, Liu H*, Tian J*. In vivo nanoparticle-mediated radiopharmaceutical-excited fluorescence molecular imaging. Nature Communications. 2015; 6:7560.
27. Wang K, Chi C, Hu Z, Liu M, Hui H, Shang W, Peng D, Zhang S, Ye J, Liu H, Tian J*.Optical molecular imaging frontiers in oncology: the pursuit of accuracy and sensitivity. Engineering. 2015;1(3): 309-323.
28. Liu H, Yang X, Song T, Bao C, Shi L, Hu Z*, Wang K*, Tian J*. Multispectral hybrid Cerenkov luminescence tomography based on the finite element SPn method. Journal of Biomedical Optics. 2015; 20(8):086007.
29. Song T, Liu X*, Qu Y, Liu H, Bao C, Leng C, Hu Z*, Wang K*, Tian J*. A novel endoscopic Cerenkov luminescence imaging system for intraoperative surgical navigation. Molecular Imaging. 2015; 14:443-449.
30. Hu Z, Yang W, Liu H, Wang K, Bao C, Song T, Wang J*, Tian J*. From PET/CT to PET/MRI: advances in instrumentation and clinical applications. Molecular Pharmaceutics. 2014; 11(11):3798-3809.
31. Ding X, Wang K, Jie B, Luo Y, Hu Z*, Tian J. Probability method for Cerenkov luminescence tomography based on conformance error minimization. Biomedical Optics Express. 2014; 5(7):2091-2112.
32. Hu Z, Yang W, Ma X, Ma W, Qu X, Liang J*, Wang J*, Tian J*. Cerenkov luminescence tomography of aminopeptidase N (APN/CD13) expression in mice bearing HT1080 tumors. Molecular Imaging. 2013; 12(3):173-181.
33. Hu Z, Ma X, Qu X, Yang W, Liang J, Wang J*, Tian J*. Three-dimensional noninvasive monitoring iodine-131 uptake in the thyroid using a modified Cerenkov luminescence tomography approach. PLoS ONE. 2012; 7(5): e37623.
34. Hu Z, Chen X, Liang J*, Qu X, Chen D, Yang W, Wang J, Cao F, Tian J*. Single photon emission computed tomography-guided Cerenkov luminescence tomography. Journal of Applied Physics. 2012; 112(2):024703.
35. Yang W, Qin W, Hu Z, Suo Y, Zhao R, Ma X, Ma W, Wang T, Liang J, Tian J, Wang J*. Comparison of Cerenkov luminescence imaging (CLI) and gamma camera imaging for visualization of let-7 expression in lung adenocarcinoma A549 cells. Nuclear Medicine and Biology. 2012; 39(7):948-953.
36. Qin C, Zhong J, Hu Z, Yang X, Tian J*. Recent advances in Cerenkov luminescence and tomography imaging. IEEE Journal of Selected Topics in Quantum Electronics. 2012; 18(3):1084-1093.
37. Ren N, Zhao H, Zhu S, Qu X, Liu H, Hu Z, Liang J*, Tian J*. Voxel classification methodology for rapid Monte Carlo simulation of light propagation in complex media. Chinese Optics Letters. 2011; 9(4):041701-1-4.
38. Zhang Q, Zhao H, Chen D, Qu X, Chen X, He X, Li W, Hu Z, Liu J, Liang J*, Tian J*. Source sparsity based primal-dual interior-point method for three-dimensional bioluminescence tomography. Optical Communication. 2011; 284(24):5871-5876.
39. Hu Z, Liang J, Yang W, Fan W, Li C, Ma X, Chen X, Ma X, Li X, Qu X, Wang J*, Cao F*, Tian J*. Experimental Cerenkov luminescence tomography of the mouse model with SPECT imaging validation. Optics Express. 2010; 18(24):24441-24450. 
40. Liu J, Wang Y, Qu X, Li X, Ma X, Han R, Hu Z, Chen X, Sun D, Zhang R, Chen D, Chen D, Chen X, Liang J*, Cao F*, Tian J*. In vivo quantitative bioluminescence tomography using heterogeneous and homogeneous mouse models. Optical Express. 2010; 18(12):13102-13113. 

部分国际会议论文发表情况：                                                                

1. Shi X, Zhang Z, Hu Z*, Tian J*. A doped nanoparticle mediate 18F-FDG excited fluorescence molecular imaging. The 2019 SPIE Photonics West, San Francisco, USA, February. 2-7 (oral presentation)
2. Hu Z, Zhang Z, Guo H, Tian J. Intraoperative Cerenkov luminescence imaging for image-guided resection of low rectal cancer on swine models. The 2018 Annual Meeting of the Society of Nuclear Medicine and Molecular Imaging, Philadelphia, USA, Jun. 23-26 (oral presentation)
3. Hu Z, Zhang Z, Guo H, Liu M, Shi X, Tian J. Construction of a novel intraoperative Cerenkov luminescence imaging system for image-guided resection of colorectal cancer on patients. The 2017 Annual Meeting of the Society of Nuclear Medicine and Molecular Imaging, Denver, USA, Jun. 10-14 (oral presentation) (2017 Young Investigator Award from the Chinese American Society of Nuclear Medicine).
4. Hu Z, Liu M, Guo H, Zhang Z, Tian J. Image-guided cancer surgery using a novel nanoparticle-mediated radiopharmaceutical-excited fluorescence molecular imaging. The 2016 Annual Meeting of the Society of Nuclear Medicine and Molecular Imaging, San Diego, USA, Jun. 11-15 (oral presentation) (2016 Young Investigator Award from the Chinese American Society of Nuclear Medicine).
5. Hu Z, Ding X, Jia X, Tian J. Comparison of Cerenkov luminescence imaging and positron emission tomography for the detection of subcutaneous breast tumor in animal models. The 2015 Annual Meeting of the Society of Nuclear Medicine and Molecular Imaging, Baltimore, USA, Jun. 6-10.
6. Hu Z, Tan T, Qu Y, Zhang X, Liu H, Tian J. High resolution micro-endoscopy for the diagnosis of gastric carcinoma and precancerous lesions. The 2015 World Molecular Imaging Congress, Honolulu, USA, Sept. 2-5.
7. Hu Z, Qu Y, Wang K, Song T, Zhang X, Liu H, Tian J. A preliminary study: radiopharmaceuticals induced fluorescence imaging in vivo. The 2014 World Molecular Imaging Congress, Seoul, Korea, Sept. 17-20 (KSMI Travel Stipend Award for the World Molecular Imaging Congress).
8.  Hu Z, Wang K, Song T, Tian J. A new optical imaging strategy: ¹⁸F-FDG induced rare earth luminescence imaging. The 2014 Annual Meeting of the Society of Nuclear Medicine and Molecular Imaging, St. Louis, USA, Jun. 7-11.
9. Hu Z, Qu Y, Wang K, Zhang X, Liu H, Tian J. In vivo radiopharmaceutical excitation fluorescence imaging. The 2014 IEEE nuclear science symposium and medical imaging conference, Seattle, USA, Nov. 8-15.
10. Hu Z, Wang K, Liu H, Mu W, Zhang Q, Du Y, Tian J. Endoscopic Cerenkov luminescence tomography of rats with gastric tumors. The 2013 Annual Meeting of the Society of Nuclear Medicine and Molecular Imaging, Vancouver, Canada, Jul. 8-12 (oral presentation) (2013 Young Investigator Award for the Chinese American Society of Nuclear Medicine).
11. Hu Z, Liu H, Wang K, Mu W, Ding X, Tian J. Bronchoscopic Cerenkov luminescence imaging of the radioactive source with ¹⁸F-FDG. The 2013 World Molecular Imaging Congress, Georgia, USA, Sept. 18-21.
12.  Hu Z, Yang W, Ma X, Ma W, Chen Z, Qu X, Wang J, Liang J, Tian J. Cerenkov-based optical tomography of APN/CD13 expression in the nude mice bearing HT1080 fibrosarcoma tumours. The 2012 Annual Meeting of the Society of Nuclear Medicine and Molecular Imaging, Miami, USA, Jul. 9-13.
13. Hu Z, Zhou Y, Lin X, Yang W, Qu X, Liang J, Wang J, Tian J. Penetration depth limits of Cerenkov luminescence generation from electron-emitting radiotracer. The 2011 World Molecular Imaging Congress, San Diego, USA, Sept. 7-10.
14. Song T, Hu Z, Lu J, Wang K, Liu X, Tian J. In vitro and in vivo endoscopic Cerenkov luminescence imaging. The 2014 Annual Meeting of the Society of Nuclear Medicine and Molecular Imaging, St. Louis, USA, Jun. 7-11 (oral presentation).
15. Song T, Bao C, Hu Z, Wang K, Liu X, Tian J. Endoscopic Cerenkov luminescence imaging: in vivo small animal tumor model validation. The 2015 Society of Photo-Optical Instrumentation Engineers Medical Imaging, Orlando, USA, Feb. 21-26.
16. Liu H, Hu Z, Wang K, Tian J. Cerenkov luminescence tomography based on preconditioning orthogonal matching pursuit. The 2015 Society of Photo-Optical Instrumentation Engineers Medical Imaging, Orlando, USA, Feb. 21-26.
17.  Liu H, Hu Z, Wang K, Song T, Bao C, Tian J. Cerenkov luminescence tomography based on the high-order simplified spherical harmonics approximation. The 2014 World Molecular Imaging Congress, Seoul, Korea, Sept. 17-20.
18. Song T, Hu Z, Wang K, Liu X, Tian J. A research of small animal Cerenkov surgical navigation system. The 2014 World Molecular Imaging Congress, Seoul, Korea, Sept. 17-20.
19.  Liu H, Hu Z, Wang K, Mu W, Tian J. An improved multispectral Cerenkov luminescence tomography for the mouse with the implanted radioactive source. The 2013 Annual Meeting of the Society of Nuclear Medicine and Molecular Imaging, Vancouver, Canada, Jul. 8-12.
20. Wang K, Hu Z, Liu H, Mu W, Tian J. In vivo hybrid spectral Cerenkov luminescence tomography using positron-emitting radiopharmaceutical ¹⁸F-FDG. The 2013 World Molecular Imaging Congress, Georgia, USA, Sept. 18-21.
21. Mu W, Liu H, Shen W, Hu Z, Wang K, Tian J. Automatic extraction of Region of Interest from the emerging Cerenkov Luminescence Endoscopy Images. The 2013 World Molecular Imaging Congress, Georgia, USA, Sept. 18-21.
22. Mu W, Liu H, Ding X, Song T, Hu Z, Wang K, Tian J. Uncoupled Endoscopic Cerenkov luminescence Imaging of Small Animals. The 13th Annual Conference of Chinese Biophysics Society, Nanchang, Jiangxi, 2013, Oct. 28-Nov. 1. 

等国际会议邀请报告和论文及国内报告二十余次。

作为项目负责人的科研项目情况：

1. 国家自然科学基金杰出青年科学基金项目，​高灵敏近红外二区增强荧光分子量化成像，主持
2. 国家自然科学基金重大科研仪器研制项目，肝癌细胞与肿瘤微环境相互作用的活体亚细胞分辨率功能成像仪器，主持
3. 国家重点研发计划“工程科学与综合交叉”重点专项，近红外二区大视野活体成像系统及淋巴结转移机制探索，主持
4. 国家自然科学基金重大研究计划重点支持项目，基于分子影像的肝癌演进关键分子CD24信息可视化及机理研究，主持
5. 国家自然科学基金优秀青年科学基金项目，分子影像，主持
6. 国家自然科学基金面上项目，放射激发荧光断层成像用于微小肿瘤诊疗一体化的研究，主持
7. 国家自然科学基金青年项目，基于混合谱的契伦科夫光学断层成像重建方法研究，主持
8. 科技部国家重点研发计划数字诊疗装备研发重点专项（青年科学家项目），基于核素放射激发荧光断层成像的肿瘤检测新技术，主持
9. 北京市自然科学基金杰出青年科学基金，新型活体光学分子影像技术研发与应用，主持
10. 北京市科技新星计划，基于放射激发荧光分子成像的肿瘤早期检测新技术，主持
11. 中国科学院科研装备研制项目，小动物活体多靶点多谱段光学断层分子成像系统，主持
12. 中国科学院青年交叉团队项目，肝癌近红外二区荧光精准手术导航青年交叉团队，主持

中国人民解放军总医院（301医院）

中国人民解放军总医院第三医学中心

首都医科大学附属北京天坛医院

首都医科大学附属北京友谊医院

北京大学第三医院

北京大学人民医院

北京协和医院

北京大学肿瘤医院

北京大学

中国医学科学院肿瘤医院

中山大学附属第五医院

西南医科大学附属医院

吉林大学附属中日联谊医院

​

已指导学生

曹财广  博士研究生  081104-模式识别与智能系统  

李聪  硕士研究生  081104-模式识别与智能系统  

沈碧螺  硕士研究生  085211-计算机技术  

史小静  博士研究生  081104-模式识别与智能系统  

钟连珍  博士研究生  081203-计算机应用技术  

现指导学生

肖安琪  博士研究生  081104-模式识别与智能系统  

符礼丹  博士研究生  081203-计算机应用技术  

韩可依  博士研究生  081104-模式识别与智能系统  

鲍杰  硕士研究生  085400-电子信息  

雷泽宇  硕士研究生  081104-模式识别与智能系统  

邓煜曦  博士研究生  081104-模式识别与智能系统  

于晓明  博士研究生  081104-模式识别与智能系统  

韩鑫辰  硕士研究生  081100-控制科学与工程  

赵锦泽  硕士研究生  081104-模式识别与智能系统  

黄秋实  博士研究生  081104-模式识别与智能系统  

裴子郁  博士研究生  081104-模式识别与智能系统  

张泽宇        北京航空航天大学  博士

李长剑        北京航空航天大学  博士

丁新涛        安徽师范大学  博士

史小静         中国科学院自动化研究所，中国科学院分子影像重点实验室

曹财广         中国科学院自动化研究所，中国科学院分子影像重点实验室

肖安琪         中国科学院自动化研究所，中国科学院分子影像重点实验室

蔡美山         中国科学院自动化研究所，中国科学院分子影像重点实验室（已毕业）

刘海哮         中国科学院自动化研究所，中国科学院分子影像重点实验室（已毕业）

罗双灵         中山大学附属第六医院（访问学生）

屈巧俊         山西医科大学（访问学生）

张玮琪         南方医科大学珠江医院（访问学生）

杨俊莹         南方医科大学珠江医院（访问学生）

张泽宇         西安电子科技大学（访问学生，已毕业）

郭红波         西北大学（访问学生，已毕业）

刘沐寒         西安电子科技大学（访问学生，已毕业）

沈碧螺         中国科学院自动化研究所，中国科学院分子影像重点实验室

李  聪     中国科学院自动化研究所，中国科学院分子影像重点实验室（已毕业）

郭李爽     北京航空航天大学（访问学生）

张笑宁     北京航空航天大学（访问学生）

郭晓勇     中国人民解放军总医院第三医学中心（访问学生）

刘忠良     西南医科大学附属医院（访问学生）

倪红波     中国医科大学（访问学生）

王  博     中山大学附属第五医院（访问学生）

杨齐岳     中国人民解放军总医院（访问学生）

田  宇     北京大学（访问学生）

亢福胜     西华大学（访问学生，已毕业）

宋天明         哈尔滨理工大学（访问学生，已毕业）

包成鹏         哈尔滨理工大学（访问学生，已毕业）

指导学生获得国家奖学金，北京市优秀毕业生，朱李月华奖学金等多项荣誉