杰出人才
崔大祥
来源:  发布时间:2017-03-10 

职      称:教授、长江、杰青
研究方向:纳米功能材料的制备与表征;基于纳米效应的胃癌预警与早期诊断系统;

                智能响应的纳米机器与传感器技术;智能响应的的纳米药物递送系统、

               纳米免疫治疗与干细胞治疗技术。
办公电话:021-34206886
 电子邮箱:dxcui@sjtu.edu.cn
 招生情况:硕士生导师、博士生导师

个人介绍


       崔大祥,上海交通大学讲席教授,教育部长江学者,国家百千万人才,被授予“有突出贡献的中青年专家”, 仪器系主任,博士生导师,上海智能诊疗仪器工程中心主任,纳米技术及应用国家工程研究中心副主任,国家杰出青年基金获得者,纳米重大科学研究计划项目首席科学家,日本早稻田大学访问教授与客座教授,悉尼大学荣誉教授。研究方向是:纳米功能材料的制备与表征;基于纳米效应的胃癌预警与早期诊断系统;智能响应的纳米机器与传感器技术;智能响应的的纳米药物递送系统、纳米免疫治疗与干细胞治疗技术。
      在Nature Protocols, Adv Mater., ACS Nano, JACS,Cancer Research, Biosensors & Bioelectronics, Applied Physics Letters等国际专业杂志上发表SCI论文380多篇,论文被Science, Nature Nanotechnology, Chem. Review 等杂志引用与评论,他引次数已超过16000多次,H-index 为68,在国际学术会议上作邀请报告50多次,获国家科技进步二等奖1项,教育部高等学校优秀成果奖技术发明一等奖1项,上海市技术发明一等奖1项,中国发明协会1等奖2项,华夏医学科技奖二等奖1项,中国电子学会技术发明二等奖1项,军队科技进步二等奖1项,主编专著2部,参与编写出版专著8部, 授权发明专利65项,参与开发的部分产品获医疗器械证。

 

 
学术兼职

     中国抗癌协会肿瘤纳米分会主任委员,中国医药卫生文化协会医工融合分会会长,中国生物技术学会分子影像专委会副主委,中国生物医学工程学会纳米生物医学工程分会常委,中国医师协会精准医学专业委员会常委,中国光学学会生物医学光子学专业委员会常委,中国生物物理学会纳米生物学分会常委,全国标准化专业技术委员会委员,Nano Biomedicine and Engineering 杂志主编。

研究方向


      纳米功能材料的制备与表征;基于纳米效应的胃癌预警与早期诊断系统;智能响应的纳米机器与传感器技术;智能响应的的纳米药物递送系统、纳米免疫治疗与干细胞治疗技术。
 

主要成就


 
 

代表论文


1. Jin, Han; Yu, Junkan; Lin, Shujing; Gao, Shan; Yang, Hao; Haick, Hossam; Hua, Changzhou; Deng, Shengwei; Yang, Tingqiang; Liu, Yueli; Shen, Wenfeng; Zhang, Xin; Zhang, Xiaowei; Shan, Shan; Ren, Tao; Wang, Liwei; Cheung, Waifung; Kam, Wanlung; Miao, Jianmin; Chen, Di; Cui, Daxiang. Nanosensor-Based Flexible Electronic Assisted with Light Fidelity Communicating Technology for Volatolomics-Based Telemedicine. ACS nano 2020; 14(11):15517-15532
2. Liu, Y., Yang, J., Liu, B., Cao, W., Zhang, J., Yang, Y., Ma, L., de la Fuente, J.M., Song, J., Ni, J., Zhang, C., Cui, D. Human iPS Cells Loaded with MnO2-Based Nanoprobes for Photodynamic and Simultaneous Enhanced Immunotherapy Against Cancer. Nano-Micro Letters, 2020; 12 (1): 127. 
3. Song, C., Li, Y., Li, T., Yang, Y., Huang, Z., de la Fuente, J.M., Ni, J., Cui, D. Long-Circulating Drug-Dye-Based Micelles with Ultrahigh pH-Sensitivity for Deep Tumor Penetration and Superior Chemo-Photothermal Therapy. Advanced Functional Materials, 2020; 30 (11): 1906309. 
4. Pan, S., Pei, L., Zhang, A., Zhang, Y., Zhang, C., Huang, M., Huang, Z., Liu, B., Wang, L., Ma, L., Zhang, Q., Cui, D. Passion fruit-like exosome-PMA/Au-BSA@Ce6 nanovehicles for real-time fluorescence imaging and enhanced targeted photodynamic therapy with deep penetration and superior retention behavior in tumor. Biomaterials, 2020; 230:.
5. Liu, Y., Cheng, J., Fan, S., Ge, H., Luo, T., Tang, L., Ji, B., Zhang, C., Cui, D., Ke, Y., Song, J. Modular Reconfigurable DNA Origami: From Two-Dimensional to Three-Dimensional Structures. Angewandte  Chemie - International Edition, 2020; 10.1002/anie.202010433 
6. Huang P, Lin J, Wang XS, Wang K, Zhang CL, Wang Q, He M, LiZM, Chen F, Shen GX, Cui D, Chen X. Light-Triggered Theranostic Based on Photosensitizer-Conjugated Carbon Dots for Simultaneous Enhanced-Fluorescence Imaging and Photodynamic Therapy. Advanced Materials 2012; 2012, 24, 5104–5110.
7. Chen, Y.; Zhang, Y.; Pan, F.; Liu, J.; Wang, K.; Zhang, C.; Cheng, S.; Lu, L.; Zhang, W.; Zhang, Z.; Zhi, X.; Zhang, Q.; Alfranca, G.; de la Fuente, J. M.; Chen, D.; Cui, D., Breath Analysis Based on Surface-Enhanced Raman Scattering Sensors Distinguishes Early and Advanced Gastric Cancer Patients from Healthy Persons. Acs Nano 2016, 10 (9), 8169-8179.
8. Lin, SJ; Zhi, X; Chen, D; Xia FF; Shen, YH; Niu, JQ; Huang,HY; Song, J;   Miao, JM; Cui, DX; Ding, XT.A flyover style microfluidic chip for highly purified magnetic cell separation. Biosensors & Bioelectronics 2019; 129:  175-181
9. Pan BF, Cui DX, Sheng Y, Ozkan CG, Gao F, He R, Li Q, Xu P, Huang T. Dendrimer-modified magnetic nanoparticles enhance efficiency of gene delivery system. Cancer Research 2007, 67, 8156-8163.  
10. Liu, Y.; Yang, M.; Zhang, J.; Zhi, X.; Li, C.; Zhang, C.; Pan, F.; Wang, K.; Yang, Y.; de la Fuentea, J. M.; Cui, D., Human Induced Pluripotent Stem Cells for Tumor Targeted Delivery of Gold Nanorods and Enhanced Photothermal Therapy. Acs Nano 2016, 10 (2), 2375-2385.

 

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