发布于:2017-06-20 星期二 13:39:15  点击数:15805




电子邮件:chenmei@hnu.edu.cn     地址:材料院楼612




2020/01-至今,  湖南大学,材料科学与工程学院,副教授


2014/09-2015/11,美国亚利桑那州立大学,生物设计研究院,导师:Yung Chang教授,国家公派联合培养博士生





[1] Y. Liu, X. Li, Y. Shi, Y. Wang, X. Zhao, X. Gong, R. Cai, G. Song, M. Chen*, X. Zhang, Two-dimensional intermetallic PtBi/Pt core/shell nanoplates overcome tumor hypoxia for enhanced cancer therapy, Nanoscale, (13)2021, 14245-14253.

[2] Y. Liu, J. Li, M. Chen*, X. Chen, N. Zheng*, Palladium-based nanomaterials for cancer imaging and therapy, Theranostics, (10)2020, 10057.

[3] Z. Guo#, L. Yang#, M. Chen#, X. Wen, H. Liu, J. Li, D. Xu, Y. An, C. Shi, J. Li, Molecular imaging of advanced atherosclerotic plaques with folate receptor-targeted 2D nanoprobes, Nano Res., (13)2020, 173-182.

[4] Y. Yang, M. Chen*, Y. Wu, P. Wang, Y. Zhao, W. Zhu, Z. Song, X.-B. Zhang*, Ultrasound assisted one-step synthesis of Au@ Pt dendritic nanoparticles with enhanced NIR absorption for photothermal cancer therapy, RSC Adv., (9)2019, 28541-28547.

[5] D. Liu, Y. Lv, M. Chen*, D. Cheng*, Z. Song, L. Yuan, X. Zhang, A long wavelength emission two-photon fluorescent probe for highly selective detection of cysteine in living cells and an inflamed mouse model, J. Mater. Chem. B, (7)2019, 3970-3975.

[6] J. Wang, D. Cheng, L. Zhu, P. Wang, H.-W. Liu, M. Chen, L. Yuan, X.-B. Zhang, Engineering dithiobenzoic acid lactone-decorated Si-rhodamine as a highly selective near-infrared HOCl fluorescent probe for imaging drug-induced acute nephrotoxicity, Chem. Commun., (55)2019, 10916-10919.

[7] X. Hu, G. Ke*, L. Liu, X. Fu, G. Kong, M. Xiong, M. Chen*, X.-B. Zhang*, Valency-controlled molecular spherical nucleic acids with tunable biosensing performances, Anal. Chem., (91)2019, 11374-11379.

[8]  Y. Yang#, M. Chen#, B. Wang, P. Wang, Y. Liu, Y. Zhao, K. Li, G. Song, X.B. Zhang*, W. Tan, NIR‐II driven plasmon‐enhanced catalysis for a timely supply of oxygen to overcome hypoxia‐induced radiotherapy tolerance, Angew. Chem. Int. Ed., (58)2019, 15069-15075.

[9] W. Zhu, M. Chen*, Y. Liu, Y. Tian, Z. Song, G. Song*, X. Zhang, A dual factor activated metal–organic framework hybrid nanoplatform for photoacoustic imaging and synergetic photo-chemotherapy, Nanoscale, (11)2019, 20630-20637.

[10] Y. Wang, M. Chen*, S. Wang, S. Du, X. Zheng, X. Jiang, S. Huan*, X. Zhang, Size‐tunable two‐dimensional Pd@ Au nanoplates as a platform for fluorescence sensing, Journal of the Chinese Chemical Society, (65)2018, 1251-1258.

[11] Z. D. Guo#, M. Chen#, C. Y. Peng, C. R. Shi, G. F. Fu, X. J. Wen, R. Q. Zhuang, X. H, Su, T. Liu, N. F.  Zheng*, X. Z. Zhang*, pH-sensitive radiolabeled and superfluorinated ultra-small palladium nanosheet as a high-performance multimodal platform for tumor theranostics, Biomaterials, (179) 2018, 134-143.   

[12] M. Chen#, Z. D. Guo#. Q. H. Chen, J. P. Wei, J. C. Li, C. R. Shi, D. Xu, D. W. Zhou, X. Z. Zhang*, N. F. Zheng*,  Pd nanosheets with their surface coordinated by radioactive iodide as a high-performance theranostic nanoagent for orthotopic hepatocellular carcinoma imaging and cancer therapy, Chem. Sci.,  (9) 2018, 4268-4274.

[13] M. Chen#, S. Z. Chen#, C. Y. He#, S. G. Mo, X. Y. Wang, G. Liu*, N. F. Zheng*, Safety profile of two dimensional Pd nanosheets for photothermal therapy and photoacoustic imaging, Nano Res., 10 (2017), 1234-1248.

[14] M. Chen, S. H. Tang, Z. D. Guo, X. Y. Wang, S. G. Mo, X. Q. Huang, G. Liu*, N. F. Zheng*, Core-shell Pd@Au nanoplates as theranostic agents for in-vivo photoacoustic imaging, CT imaging, and photothermal therapy, Adv. Mater., 26 (2014), 8210-8216.

[15] K.M. Au#, M. Chen#, S.P. Armes*, N. F. Zheng*, Near-infrared light-triggered irreversible aggregation of poly (oligo (ethylene glycol) methacrylate)-stabilised polypyrrole nanoparticles under biologically relevant conditions, Chem Commun., 49 (2013) 10525-10527.

[16] M. Chen, B. H. Wu, J. Yang, N. F. Zheng*, Small adsorbate-assisted shape control of Pd and Pt nanocrystals, Adv. Mater., 24 (2012) 862-879.

[17] M. Chen, X. L. Fang, S. H. Tang, N. F. Zheng*, Polypyrrole nanoparticles for high-performance in vivo near-infrared photothermal cancer therapy, Chem Commun., 48 (2012) 8934-8936.