中心介绍

陈静,女,198210月出生,博士,副教授。

    2001-2005年,就读于南京师范大学环境与科学学院,获得学士学位。

    2005年9月~2011.9月,东南大学/电子与科学工程学院/物理电子学专业硕博连读。博士期间在导师的带领下,先后参与了973 项目、863 项目、自然基金项目,主持博士点基金项目,获得“江苏省优秀博士论文”。

    其间,20079月~20089月,获得国家公派奖学金资助,在新加坡南洋理工大学电子工程系学习一年,参与了电致变色显示器件和量子点LED发光器件项目,主要研究工作为量子点敏化太阳能电池。

    20081月~20087月在新加坡南洋理工大学化学学院,继续从事量子点敏化电池的研究工作,并获得中国驻新加坡大使馆颁发的国家公派优秀学生奖“Excellent Government-funded Scholars and Students”。

    2011.9月~至今,东南大学/电子科学与工程学院/显示技术研究中心,讲师,副教授,主持国家自然基金青年基金、国家自然基金面上基金、教育部博士点基金工作,参与国家重点研发计划,研究领域为量子点材料合成以及发光二极管器件。以一作者/通讯发表SCI收录论文三十篇以上,申请若干国家发明专利

    近五年发表SCI收录论文列表:

1.      Wang, X.; Wu, Y.; Li, G. W.; Li, Y. W.; Wu, J.; Zhang, X. B.; Li, Q.; Wang, B. P.; Chen, J.; Lei, W., Fabrication of Photodiodes Based on Solution-Processed Perovskite Single Crystals. Ieee Transactions on Electron Devices 2019, 66, 485-490.

2.      Jiang, S. G.; Wang, X.; Wu, Y.; Li, Y. W.; Zhang, Q.; Li, G. W.; Wu, Y. J.; Zhang, W.; Zhang, X. B.; Wang, B. P.; Chen, J.; Lei, W., Balance lead in solution-processed CH3NH3PbBrxCl(3-x) single crystals for high performance X-ray detection. Materials Letters 2019, 236, 26-29.

3.      Wang, X.; Zhao, D. W.; Qiu, Y. P.; Huang, Y.; Wu, Y.; Li, G. W.; Huang, Q. Q.; Khan, Q.; Lei, W.; Chen, J., PIN Diodes Array Made of Perovskite Single Crystal for X-Ray Imaging. Physica Status Solidi-Rapid Research Letters 2018, 12.

4.      Wang, X.; Wu, Y.; Li, G. W.; Wu, J.; Zhang, X. B.; Li, Q.; Wang, B. P.; Chen, J.; Lei, W., Ultrafast Ionizing Radiation Detection by p-n Junctions Made with Single Crystals of Solution-Processed Perovskite. Advanced Electronic Materials 2018, 4.

5.      Wang, L. X.; Pan, J. Y.; Qian, J. P.; Lei, W.; Wu, Y. J.; Zhang, W.; Goto, D. K.; Chen, J., A highly efficient white quantum dot light-emitting diode employing magnesium doped zinc oxide as the electron transport layer based on bilayered quantum dot layers. Journal Of Materials Chemistry C 2018, 6, 8099-8104.

6.      Tao, Z.; Liu, X.; Lei, W.; Chen, J., High sensitive solar blind phototransistor based on ZnO nanorods/IGZO heterostructure annealed by laser. Materials Letters 2018, 228, 451-455.

7.      Subramanian, A.; Pan, Z. H.; Zhang, Z. B.; Ahmad, I.; Chen, J.; Liu, M. N.; Cheng, S.; Xu, Y. J.; Wu, J.; Lei, W.; Khan, Q.; Zhang, Y. G., Interfacial Energy-Level Alignment for High-Performance All Inorganic Perovskite CsPbBr3 Quantum Dot-Based Inverted Light Emitting Diodes. Acs Applied Materials & Interfaces 2018, 10, 13236-13243.

8.      Pan, J. Y.; Wei, C. T.; Wang, L. X.; Zhuang, J. Y.; Huang, Q. Q.; Su, W. M.; Cui, Z.; Lei, W.; Chen, J., Boosting the efficiency of inverted quantum dot light-emitting diodes by balancing charge densities and suppressing exciton quenching through band alignment. Nanoscale 2018, 10, 592-602.

9.      Liu, X.; Kuang, W. J.; Ni, H. B.; Tao, Z.; Huang, Q. Q.; Chen, J.; Liu, Q. Q.; Chang, J. H.; Lei, W., A highly sensitive and fast graphene nanoribbon/CsPbBr3 quantum dot phototransistor with enhanced vertical metal oxide heterostructures. Nanoscale 2018, 10, 10182-10189.

10.    Wang, C. L.; Zhao, D. W.; Yu, Y.; Shrestha, N.; Grice, C. R.; Liao, W. Q.; Cimaroli, A. J.; Chen, J.; Ellingson, R. J.; Zhao, X. Z.; Yan, Y. F., Compositional and morphological engineering of mixed cation perovskite films for highly efficient planar and flexible solar cells with reduced hysteresis. Nano Energy 2017, 35, 223-232.

11.    Wang, C. L.; Xiao, C. X.; Yu, Y.; Zhao, D. W.; Awni, R. A.; Grice, C. R.; Ghimire, K.; Constantinou, I.; Liao, W. Q.; Cimaroli, A. J.; Liu, P.; Chen, J.; Podraza, N. J.; Jiang, C. S.; Al-Jassim, M. M.; Zhao, X. Z.; Yan, Y. F., Understanding and Eliminating Hysteresis for Highly Efficient Planar Perovskite Solar Cells. Advanced Energy Materials 2017, 7.

12.    Wang, C. L.; Guan, L.; Zhao, D. W.; Yu, Y.; Grice, C. R.; Song, Z. N.; Awni, R. A.; Chen, J.; Wang, J. B.; Zhao, X. Z.; Yan, Y. F., Water Vapor Treatment of Low-Temperature Deposited SnO2 Electron Selective Layers for Efficient Flexible Perovskite Solar Cells. Acs Energy Letters 2017, 2, 2118-2124.

13.    Pan, J. Y.; Chen, J.; Huang, Q. Q.; Wang, L. X.; Lei, W., A highly efficient quantum dot light emitting diode via improving the carrier balance by modulating the hole transport. Rsc Advances 2017, 7, 43366-43372.

14.    Liu, X.; Tao, Z.; Kuang, W. J.; Huang, Q. Q.; Li, Q.; Chen, J.; Lei, W., Dual-Gate Phototransistor With Perovskite Quantum Dots-PMMA Photosensing Nanocomposite Insulator. Ieee Electron Device Letters 2017, 38, 1270-1273.

15.    Cui, Y. K.; Chen, J.; Zhang, Y. N.; Zhang, X. B.; Lei, W.; Di, Y. S.; Zhang, Z. C., Enhanced performance of thermal-assisted electron field emission based on barium oxide nanowire. Applied Surface Science 2017, 396, 1108-1112.

16.    Cui, Y. K.; Chen, J.; Di, Y. S.; Zhang, X. B.; Lei, W., High performance field emission of silicon carbide nanowires and their applications in flexible field emission displays. Aip Advances 2017, 7.

17.    Yu, Y.; Wang, C. L.; Grice, C. R.; Shrestha, N.; Chen, J.; Zhao, D. W.; Liao, W. Q.; Cimaroli, A. J.; Roland, P. J.; Ellingson, R. J.; Yan, Y. F., Improving the Performance of Formamidinium and Cesium Lead Triiodide Perovskite Solar Cells using Lead Thiocyanate Additives. Chemsuschem 2016, 9, 3288-3297.

18.    Wang, C. L.; Zhao, D. W.; Grice, C. R.; Liao, W. Q.; Yu, Y.; Cimaroli, A.; Shrestha, N.; Roland, P. J.; Chen, J.; Yu, Z. H.; Liu, P.; Cheng, N.; Ellingson, R. J.; Zhao, X. Z.; Yan, Y. F., Low-temperature plasma-enhanced atomic layer deposition of tin oxide electron selective layers for highly efficient planar perovskite solar cells. Journal Of Materials Chemistry A 2016, 4, 12080-12087.

19.    Tao, Z.; Huang, Y. A.; Liu, X.; Chen, J.; Lei, W.; Wang, X. F.; Pan, L. F.; Pan, J. Y.; Huang, Q. Q.; Zhang, Z. C., High-Performance Photo-Modulated Thin-Film Transistor Based on Quantum dots/Reduced Graphene Oxide Fragment-Decorated ZnO Nanowires. Nano-Micro Letters 2016, 8, 247-253.

20.    Pan, J. Y.; Huang, Q. Q.; Zhang, Y. N.; Chen, J.; Tao, Z.; He, C.; Zhou, K. F.; Lei, W., Application of Solvent Modified PEDOT:PSS in All-Solution-Processed Inverted Quantum Dot Light-Emitting Diodes. Journal Of Display Technology 2016, 12, 1157-1161.

21.    Pan, J. Y.; Chen, J.; Zhao, D. W.; Huang, Q. Q.; Khan, Q.; Liu, X.; Tao, Z.; Zhang, Z. C.; Lei, W., Surface plasmon-enhanced quantum dot lightemitting diodes by incorporating gold nanoparticles. Optics Express 2016, 24, A33-A43.

22.    Pan, J. Y.; Chen, J.; Huang, Q. Q.; Khan, Q.; Liu, X.; Tao, Z.; Zhang, Z. C.; Lei, W.; Size Tunable ZnO Nanoparticles To Enhance Electron Injection in Solution Processed QLEDs. Acs Photonics 2016, 3, 215-222.

23.    Huang, Q. Q.; Pan, J. Y.; Zhang, Y. N.; Chen, J.; Tao, Z.; He, C.; Zhou, K. F.; Tu, Y.; Lei, W., High-performance quantum dot light-emitting diodes with hybrid hole transport layer via doping engineering. Optics Express 2016, 24, 25955-25963.

24.    Cui, Y. K.; Chen, J.; Zhang, X. B.; Lei, W.; Di, Y. S.; Wang, Q. L., Flexible Field Emission Devices Based on Barium Oxide Nanowires. Journal Of Display Technology 2016, 12, 466-471.

25.    Zhao, N.; Chen, J.; Qu, K.; Khan, Q.; Lei, W.; Zhang, X. B., Stable electron field emission from carbon nanotubes emitter transferred on graphene films. Physica E-Low-Dimensional Systems & Nanostructures 2015, 72, 84-88.

26.    Pan, J. Y.; Chen, J.; Huang, Q. Q.; Khan, Q.; Liu, X.; Tao, Z.; Lei, W.; Xua, F.; Zhang, Z. C., Flexible quantum dot light emitting diodes based on ZnO nanoparticles. Rsc Advances 2015, 5, 82192-82198.

27.    Liu, X.; Liu, N. Z.; Liu, M. J.; Tao, Z.; Kuang, W. J.; Ji, X. B.; Chen, J.; Lei, W.; Dai, Q.; Li, C.; Li, X. H., Graphene nanomesh photodetector with effective charge tunnelling from quantum dots. Nanoscale 2015, 7, 4242-4249.

28.    Huang, Q. Q.; Chen, J.; Zhao, J.; Pan, J. Y.; Lei, W.; Zhang, Z. C., Enhanced Photoluminescence Property for Quantum Dot-Gold Nanoparticle Hybrid. Nanoscale Research Letters 2015, 10.

29.    Chen, J.; Pan, J. Y.; Huang, Q. Q.; Xu, F.; Zhang, Z. C.; Lei, W., Graphene oxide/PEDOT:PSS as injection layer for quantum dot light emitting diode. Physica Status Solidi a-Applications And Materials Science 2015, 212, 2856-2861.