北京大学国际癌症研究院

师资队伍

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魏勋斌教授

博士生导师，国家杰出青年科学基金获得者。北京大学跨学部生物医学工程系/北京大学肿瘤医院（双聘）博雅特聘教授，SPIE （国际光学工程学会）Fellow（会士）。获得教育部新世纪优秀人才、科技部973国家重大基础研究计划、国家传染病重大专项、国家自然科学基金重大科学仪器专项等项目资助。研究方向为生物医学光子学、肿瘤光学分子成像技术与应用，在Nature, Nature Communications, Cancer Research, Stem Cell Reports, Light：Science & Applications等期刊发表SCI论文100余篇，被引用 4000多次。获得20项国内外专利, 获国家三类医疗器械注册证1项。

研究方向 :

北京大学跨学部生物医学工程系/北京大学肿瘤医院（双聘）博雅特聘教授，国家杰出青年科学基金获得者，SPIE （国际光学工程学会）Fellow（会士）。获得教育部新世纪优秀人才、科技部973国家重大基础研究计划、国家传染病重大专项、国家自然科学基金重大科学仪器专项等项目资助。研究方向为生物医学光子学、肿瘤光学分子成像技术与应用，在Nature, Nature Communications, Cancer Research, Stem Cell Reports, Light：Science & Applications等期刊发表SCI论文100余篇，被引用 4000多次。获得20项国内外专利, 获国家三类医疗器械注册证1项。

代表性论文 :

1. Lin, L., Pang, W., Jiang, X., Ding, S., Wei, X^*. and Gu, B., 2022. Light amplified oxidative stress in tumor microenvironment by carbonized hemin nanoparticles for boosting photodynamic anticancer therapy. Light: Science & Applications, 11(1), pp.1-16.

2. Zhu, X., Suo, Y., Fu, Y., Zhang, F., Ding, N., Pang, K., Xie, C., Weng, X., Tian, M., He, H. and Wei, X^*., 2021. In vivo flow cytometry reveals a circadian rhythm of circulating tumor cells. Light: Science & Applications, 10(1), pp.1-10.

3. Tao, L., Liu, Q., Zhang, F., Fu, Y., Zhu, X., Weng, X., Han, H., Huang, Y., Suo, Y., Chen, L.， Gao, X., Wei, X^*., 2021. Microglia modulation with 1070-nm light attenuates Aβ burden and cognitive impairment in Alzheimer’s disease mouse model. Light: Science & Applications, 10(1), pp.1-14.

4. Cheng, P., Tian, X., Tang, W., Cheng, J., Bao, J., Wang, H., Zheng, S., Wang, Y., Wei, X., Chen, T. and Feng, H., 2021. Direct control of store-operated calcium channels by ultrafast laser. Cell Research, 31(7), pp.758-772.

5. Huang, Y., Tian, Y., Shu, J., Wang, F. and Wei, X^*., 2020. Oxygen self-enriched single-component “black carbon nitride” for near-infrared phototheranostics. Nanoscale, 12(42), pp.21812-21820.

6. Pang, W., Jiang, P., Ding, S., Bao, Z., Wang, N., Wang, H., Qu, J., Wang, D., Gu, B. and Wei, X^*., 2020. Nucleolus‐Targeted Photodynamic Anticancer Therapy Using Renal‐Clearable Carbon Dots. Advanced healthcare materials, 9(16), p.2000607.

7. Suo, Y., Gu, Z. and Wei, X^*., 2020. Advances of in vivo flow cytometry on cancer studies. Cytometry Part A, 97(1), pp.15-23.

8. Wei, D., Pang, K., Song, Q., Suo, Y., He, H., Weng, X., Gao, X. and Wei, X^*., 2018. Noninvasive monitoring of nanoparticle clearance and aggregation in blood circulation by in vivo flow cytometry. Journal of Controlled Release, 278, pp.66-73.

9. Zhong, M., Wei, X., Zhou, J., Wang, Z. and Li, Y., 2013. Trapping red blood cells in living animals using optical tweezers. Nature communications, 4(1), pp.1-7.

10. Wei, D., Fan, Z., Wang, X. and Wei, X^*., 2013, February. In vivo flow cytometry visualizes the effects of tumor resection on metastasis by real-time monitoring of rare circulating cancer cells. Biophotonics and Immune Responses VIII (Vol. 8582, p. 85820F). International Society for Optics and Photonics.