教育经历
1995.09-1998.07 复旦大学 光学 理学博士
1992.09-1995.07 厦门大学 光学 理学硕士
1988.09-1992.07 厦门大学 物理学 理学学士
工作经历
2014.01-今 上海交通大学物理与天文学院 教授
2002.11-2003.04 欧盟联合研究中心 访问学者
2001.05-2002.04 斯图加特大学等离子体研究所 访问学者
2000.01-2013.12 上海交通大学物理与天文学院 副教授
1998.08-1999.12 上海交通大学物理与天文学院 讲师
碳量子点发光特性和生物医用功能特性研究
1. Q. Zhang*, F. Q. Wang, R. Y. Wang, J. L. Liu, Y. P. X. Ma, X. R. Qin, and X. X. Zhong*, Activating one/two-photon excited red fluorescence on carbon d Dots: Emerging n-Pi Photon Transition Induced by Amino Protonation, Advanced Science 10: 2207566 (2023).
2. Y. Jin, Q. Zhang, X. Qin, Z. Liu, Z. X. Li, X. X. Zhong*, L. G. Xia*, J. He*, B. Fang*, Carbon dots derived from folic acid attenuates osteoarthritis by protecting chondrocytes through NF-κB/MAPK pathway and reprogramming macrophages, Journal of Nanobiotechnology 20: 469 (2022).
3. Q. Zhang*, R. Y. Wang, B. W. Feng, and X. X. Zhong* and K. Ostrikov. Photoluminescence mechanism of carbon dots: triggering high-color-purity red fluorescence emission through edge amino protonation. Nature Communications, 12(1): 6856 (2021).
4. Q. Zhang, S. Z. Deng, J. L. Liu, X. X. Zhong*, J. He*, X. F. Chen*, B. W. Feng, Y. F. Chen, and K. Ostrikov. Cancer-targeting graphene quantum dots: Fluorescence quantum yields, stability, and cell selectivity. Advanced Functional Materials, 29(5): 1805860 (2019).
大气压等离子体辅助液相生长纳米材料研究
1. Y. P. X. Ma, R. Y. Wang, T. T. Yan, X. R. Qin, Q. Zhang, X. X. Zhong*. On the way of making highly stable Ag nanoparticles with a narrower size distribution by microplasma. Plasma Processes and Polymers, e2200059, (2022).
2. X. Qin, J. L. Liu, Q. Zhang, W. T. Chen*, X. X. Zhong*, and J. He*. Synthesis of yellow-fluorescent carbon nano-dots by microplasma for imaging and photocatalytic inactivation of cancer cells. Nanoscale Research Letters, 16(1): 14 (2021).
3. Q. Y. Wang, Q. Zhang*, Y. F. Chen, J. He*, K. Jiang, Z. G. Hu, and X. X. Zhong*. Blue luminescent amorphous carbon nanoparticles synthesized by microplasma processing of folic acid. Plasma Processes and Polymers, 15(1): 1700088 (2018) (Back cover).
4. X. Z. Huang, Y. S. Li, X. X. Zhong*, A. E. Rider, and K. Ostrikov. Fast microplasma synthesis of blue luminescent carbon quantum dots at ambient conditions. Plasma Processes and Polymers, 12(1): 59–65 (2015) (Back cover).
5. Y. S. Li, X. X. Zhong*, A. E. Rider, S. A. Furman, and K. Ostrikov*. Fast, energy-efficient synthesis of luminescent carbon quantum dots. Green Chemistry, 16(5): 2566–2570 (2014).
6. T. T. Yan, X. X. Zhong*, A. E. Rider, Y. Lu, S. A. Furman, and K. Ostrikov. Microplasma- chemical synthesis and tunable real-time plasmonic responses of alloyed AuxAg1-x nanoparticles. Chemical Communications, 50(24): 3144–3147 (2014) (Inside front cover).
7. X. Z. Huang, Y. S. Li, and X. X. Zhong*. Effect of experimental conditions on size control of Au nanoparticles synthesized by atmospheric microplasma electrochemistry. Nanoscale Research Letters, 9(1): 572 (2014).
8. X. Z. Huang, X. X. Zhong*, Y. Lu, Y. S. Li, A. E. Rider, S. A. Furman, and K. Ostrikov. Plasmonic Ag nanoparticles via environment-benign atmospheric microplasma electrochemistry. Nanotechnology, 24(9): 095604 (2013).
大气压等离子体诊断、大气压等离子体非平衡特性和非线性演化研究
1. B. W. Feng, R. Y. Wang, Y. P. X. Ma, and X. X. Zhong*. Evolution of electron density of pin-to-plate discharge plasma under atmospheric pressure. Wuli Xuebao/Acta Physica Sinica, 70(9): 095201 (2021).
2. B. W. Feng, X. X. Zhong*, Q. Zhang, Y. F. Chen, R. Y. Wang, and K. Ostrikov. Effect of duty cycle on pulsed discharge atmospheric pressure plasma: Discharge volume and remnant electron density. Plasma Sources Science and Technology, 29(8): 085017 (2020).
3. Y. F. Chen, B. W. Feng, Q. Zhang, R. Y. Wang, K. Ostrikov, and X. X. Zhong*. Temperature dependence of pattern transitions on water surface in contact with dc microplasmas. Plasma Science and Technology, 22(5): 055404 (2020).
4. B. W. Feng, X. X. Zhong*, Q. Zhang, Y. F. Chen, Z. M. Sheng, and K. Ostrikov. Size and electron density of open-air plasmas diagnosed by optical imaging. Journal of Physics D: Applied Physics, 52(26): 265203 (2019).
5. A. Majeed, X. X. Zhong*, S. F. Xu, X. H. Wu, U. Cvelbar, and Z. M. Sheng. The influence of discharge capillary size, distance, and gas composition on the non-equilibrium state of microplasma. Plasma Processes and Polymers, 13(7): 690–697 (2016).
6. S. F. Xu and X. X. Zhong*. Self-deformation in a direct current driven helium jet micro discharge. Physics of Plasmas, 23(1): 010701 (2016).
7. S. F. Xu and X. X. Zhong*. Non-linear macro evolution of a dc driven micro atmospheric glow discharge. Physics of Plasmas, 22(10): 103519 (2015).
8. S. F. Xu, X. X. Zhong*, and A. Majeed. Neutral gas temperature maps of the pin-to-plate argon micro discharge into the ambient air. Physics of Plasmas, 22(3): 033502 (2015).
9. S. F. Xu and X. X. Zhong*. Heat transport of nitrogen in helium atmospheric pressure microplasma. Applied Physics Letters, 103(2): 024101 (2013).
10. Y. Lu, S. F. Xu, X. X. Zhong*, K. Ostrikov, U. Cvelbar, and D. Mariotti. Characterization of a dc-driven microplasma between a capillary tube and water surface. EPL, 102(1): 15002 (2013).
1999年获蔡诗东等离子体物理奖
2004年获上海青年科技启明星计划资助
2010年入选上海交通大学SMC-晨星青年学者奖励计划(A类)
每年招收博士研究生1-2名,欢迎硕士研究生、本科生加入本课题组。
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