陈洁 副教授

研究机构:激光等离子体教育部重点实验室

研究领域:非平衡态动力学

办公地点:超快科学中心204

办公电话:+86-21-54742245

电子邮箱:jiec@sjtu.edu.cn

研究方向:凝聚态中的超快动力学、非线性光学调制、光动力灭活

简历:

陈洁博士长期致力于超快科学研究,在超快X射线衍射技术的发展及在凝聚态非平衡态动力学研究中获得重要进展,并取得了一系列科研成果。她带领团队发展并建成了国内首套高重频台面式飞秒X射线装置,并获得2013年第八届饶毓泰基础光学奖;通过飞秒激光在锰氧化物诱导出热力学相图中不存在的室温隐形态,结合多种超快手段从时域上揭示性质和演化机制;通过表面等离激元增强实现了光信号的超快主动调控;发展了基于皮秒电子脉冲的瞬态电场的高时空分辨诊断技术,并作为成员获得2018年度“求是科技基金会”杰出科技成就集体奖。 2014年至今陈洁博士作为发起人和负责人之一建设超快科学中心,组织并担任第14届国际飞秒大会(FEMTO14)的地方组委会主席。

主要著作:

1.Zhang, H., Y. Zhang, R. Li, J. Yu, W. Dong, C. Chen, K. Wang, X. Tang & J. Chen*, Room temperature hidden state in a manganite observed by time-resolved X-ray diffraction. npj Quantum Materials 4, 31 (2019). 


2.Wang, Y., H. Zhang, T. Zhang, W. Shi, M. Kan, J. Chen*, and Y. Zhao*, Photostability of MAPbI3 Perovskite Solar Cells by Incorporating Black Phosphorus. Solar RRL 3, 1900197 (2019).


3.Shi, W., Y. Wang, T. Zhang, H. Zhang, Y. Zhao* & J. Chen*, Fast Charge Diffusion in MAPb(I1–xBrx)3 Films for High-Efficiency Solar Cells Revealed by Ultrafast Time-Resolved Reflectivity. The Journal of Physical Chemistry A 123, 2674-2678 (2019).


4.Li, R., D. Dhankhar, J. Chen, T.C. Cesario, and P.M. Rentzepis*, A tryptophan synchronous and normal fluorescence study on bacteria inactivation mechanism. Proceedings of the National Academy of Sciences 116, 18822-18826 (2019).


5.Wang, K., R. Li, H.-H. Hsiao, L. Chen, H. Zhang & J. Chen*, Ultrafast active control of UV light with plasmonic resonance on aluminum nanostripes. Applied Physics Letters 112, 191107 (2018). 


6.Li, R., U. Goswami, M. King, J. Chen, T.C. Cesario & P.M. Rentzepis*, In situ detection of live-to-dead bacteria ratio after inactivation by means of synchronous fluorescence and PCA. Proceedings of the National Academy of Sciences 115, 668-673 (2018).


7.Zhang, H., K. Wang, Y. Zhang, W. Dong, L. Chen, X. Tang & J. Chen*, Strong influence of polaron-polaron interaction on the magnetoresistance effect in La0.7A0.3MnO3 thin films. Applied Physics Letters 111, 192408 (2017). 


8.Wang, K., L. Chen, H. Zhang, H.-H. Hsiao, D.P. Tsai & J. Chen*, Plasmon-enhanced optical nonlinearity for femtosecond all-optical switching. Applied Physics Letters 111, 181102 (2017). 


9.Wang, K., L. Chen, H. Zhang & J. Chen*, Controlling surface plasmon polaritons at femtosecond timescales on an aluminum-coated grating. Applied Physics Letters 110, 021105 (2017).


10.Li, R.*, P. Zhu, J. Chen, J. Cao, P.M. Rentzepis & J. Zhang*, Direct observation of ultrafast thermal and non-thermal lattice deformation of polycrystalline aluminum film. Applied Physics Letters 111, 041105 (2017).


11.Guo, X., Z.-y. Jiang, L. Chen, L.-M. Chen, J.-g. Xin & J. Chen*, Ultrafast structural dynamics studied by kilohertz time-resolved x-ray diffraction. Chinese Physics B 24, 617-621 (2015).


12.Chen, L., R. Li, J. Chen, P. Zhu, F. Liu*, J. Cao, Z. Sheng & J. Zhang*, Mapping transient electric fields with picosecond electron bunches. Proceedings of the National Academy of Sciences 112, 14479-14483 (2015).


13.Chen, J.* & P.M. Rentzepis*, Subpicosecond and Sub-Angstrom Time and Space Studies by Means of Light, X-ray, and Electron Interaction with Matter. Journal of Physical Chemistry Letters 5, 225-232 (2014). 


14.Chen, J., T.C. Cesario & P.M. Rentzepis*, Rationale and mechanism for the low photoinactivation rate of bacteria in plasma. Proceedings of the National Academy of Sciences of the United States of America 111, 33-38 (2014).


15.Li, R.-Z., P. Zhu, L. Chen, T. Xu, J. Chen*, J. Cao, Z.-M. Sheng & J. Zhang*, Investigation of transient surface electric field induced by femtosecond laser irradiation of aluminum. New Journal of Physics 16, 103013 (2014).


16.Li, R.-Z., P. Zhu, L. Chen, J. Chen*, J. Cao, Z.-M. Sheng & J. Zhang*, Simultaneous investigation of ultrafast structural dynamics and transient electric field by sub-picosecond electron pulses. Journal of Applied Physics 115, 183507 (2014).


17.Chen, J., I.V. Tomov, A.O. Er & P.M. Rentzepis*, X-ray laser resonator for the kilo-electron-volt range. Applied Physics Letters 102, 174101 (2013). (Invited for SPIE Newsroom)


18.Chen, W.-K., J. Chen* & P.M. Rentzepis*, Electron Transfer Mechanism in Organometallic Molecules Studied by Subpicosecond Extended X-ray. Absorption Fine Structure Spectroscopy. Journal of Physical Chemistry B 117, 4332-4339 (2013).