雷威简历

发布者:王莉莉发布时间:2019-05-15浏览次数:1852

简历  (2019)



雷威

教授

东南大学电子科学与工程学院

南京四牌楼二号,210096




教育经历

1983-1987南京工学院电子工程系, 工学学士.

1987-1989南京工学院电子工程系,工学硕士.

1990-1993东南大学电子科学与工程学院,工学博士


研究经历

1993-1994东南大学电子工程系,助理教授

1994-1996东南大学电子工程系,讲师

1996-2000东南大学电子工程系,副教授

2000-2008东南大学电子科学与工程学院,教授

2008-2012东南大学电子科学与工程学院,副院长,教授

2012- 2016   东南大学教务处,处长,教授

2015- 2018   东南大学吴健雄学院(荣誉学院)总支书记,常务副院长,教授

2018 -       东南大学电子科学与工程学院,教授



学术成就:

长期从事纳米光电材料及器件的应用基础研究,在场致发射电子器件、量子点发光器件、量子点光电探测器件、新型X射线管和X射线平板探测器件等研究中取得一系列创新性成果。近年来在申请者在Adv. Func. Mater., ACS Nano, ACS Photonics, Nano Scale等杂志上发表有关的论文100余篇,获得相关发明专利30余项。先后承担完成了自然基金、重点专项和成果转化基金项目20余项。

担任associate editor of IEEE Photonic Journalassociate editor of IEEE Journal of Display Technology,中国场致发射专业委员会副主任委员,中国真空学会常务理事


研究方向:

  • 发光与显示

利用胶体半导体量子点,如CdSeCsPbBr3等,的量子限域效应,开展量子点发光器件(QLEDs)的相关研究。通过对发光器件结构的优化设计,提高发光效率以及铯饱和度。

QLEDs为基础,通过对增益介质和谐振光腔的设计,探索大面积的薄膜激光器件。

  • 光电探测

除了利用胶体量子点实现电子/空穴对复合发光以外,我们还利用量子点吸收入射光子能量产生光生载流子的特点,研究可全溶液法制备的柔性光电传感器件。同时,利用全溶液法制备量子点光电探测器的特点,探索将紫外、可见光和红外集成的高光谱成像技术。

  • 高能X射线/射线光子探测成像

X射线/射线的数字探测成像(DR)在医学影像占据越来越重要的地位,我们利用钙钛矿晶体很强的X射线/射线光子吸收和转换性能,以及非常优秀的载流子输运性能,发展基于钙钛矿晶体的X射线/射线探测成像器件,希望最终获得低剂量、高分辨率(空间分辨率、时间分辨率和能量分辨率)的成像性能,并在X-CTPET/CT得以应用。

  • 动态数字光场调控

空间结构光场展现了一系列新颖的物理效应和现象,进一步拓展了激光技术的工程应用领域。针对空间结构光场产生和调控带来的挑战,我们研制超高分辨率硅基液晶动态空间矢量光调制系统(LCoS SLM),结合LCoS SLM 的物理参数,开发快速、准确的计算全息算法,通过本项目研制的超高分辨率LCoS SLM 和数字全息技术对空间光场动态准确操控。


Publication List


No.

Paper title/Journal

Date of publication

Corresponding author

1

Optofluidic system based on electrowetting technology for dynamically tunable spectrum absorber/Optics Express

27, 3,  2521-2529, 2019

Wu Jun

2

Balance lead in solution-processed CH3NH3PbBrxCl(3-x) single crystals for high performance X-ray detection/Material Letters

236, 26-29, 2019

Lei Wei

3

A Color Tunable Quantum-Dot Light-Emitting Diode Device Driven by Variable Voltage/Journal of nanoscience and Nanotechnology

19, 2, 1038-1043, 2019

Lei Wei

4

Dynamically Tunable Light Absorbers as Color Filters Based on Electrowetting Technology/Nanomaterials

9, 1, 70, 2019

Wu Jun

5

Optical Mobile Communications: Principles, Implementation, and Performance Analysis/IEEE TRANSACTIONS ON VEHICULAR TECHNOLOGY 

68, 1,  471-482, 2019

Zhang Zaichen

6

Fabrication of Photodiodes Based on Solution-Processed Perovskite Single Crystals/IEEE Tran. Electron Dev.

66, 1, 485-490, 2019

Lei Wei

7

Impact of the post-thermal annealing on OFETs using printed contacts, printed organic gate insulator and evaporated C-60 active layer/Solid State Electronics

150,  51-59, 2018

M.B. tayeb

8

Investigation on the wetting issues in solution processed inverted quantum-dot light-emitting diodes/Organic Electronics

62, 434-440, 2018

Wu Jun

9

Ultrafast Ionizing Radiation Detection by p-n Junctions Made with Single Crystals of Solution-Processed Perovskite/Advanced Electronic Materials

4, 11, 1800237, 2018

Lei Wei

10

PIN Diodes Array Made of Perovskite Single Crystal for X-Ray Imaging/Physica Status Solidi-Rapid Research Letters  

12,10,  1800380, 2018

Lei Wei

11

High sensitive solar blind phototransistor based on ZnO nanorods/IGZO heterostructure annealed by laser/Materials Letters

228,  451-455, 2018

Lei Wei

12

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/J. Mater. Chem. C

6, 30, 8099-8104 , 2018

Lei Wei

13

Influence of interfacial wetting ability on hole injection efficiency of PEDOT: PSS for solution processed normal quantum-dot light-emitting diodes/Organic Electronics

58, 191-196, 2018

Wu Jun

14

A highly sensitive and fast graphene nanoribbon/CsPbBr3 quantum dot phototransistor with enhanced vertical metal oxide heterostructures/NanoScale

10, 21, 10182-10189, 2018

Liu Xiang

15

Interfacial Energy-Level Alignment for High-Performance All Inorganic Perovskite CsPbBr3 Quantum Dot-Based Inverted Light Emitting Diodes/ACS Appl. Mater. & Inter.

10, 15 13236-13243, 2018

Lei Wei

16

Boosting the efficiency of inverted quantum dot light-emitting diodes by balancing charge densities and suppressing exciton quenching through band alignment/NanoScale

10, 2, 592-602, 2018

Lei Wei

17

High performance field emission of silicon carbide nanowires and their applications in flexible field emission displays/AIP Adv.

7, 12, 125219, 2017

Cu Yunkang

18

Asymmetrical Photodetection Response of Methylammonium Lead Bromide Perovskite Single Crystal/Cryst. Res. and Tech.

52, 9,  UNSP 1700115 , 2017

Lei Wei

19

Dual-Gate Phototransistor With Perovskite Quantum Dots-PMMA Photosensing Nanocomposite Insulator/IEEE Electron Device Letters

38, 9, 1270-1273, 2017

Lei Wei

20

Solution-Processed Extremely Efficient Multicolor Perovskite Light-Emitting Diodes Utilizing Doped Electron Transport Layer/Adv. Func. Mater.

27, 1606874, 2017

Lei Wei

21

High-performance quantum dot light-emitting diodes with hybrid hole transport layer via doping engineering/ Optical Express

24, 25955-25963, 2016

Lei Wei

22

High-Performance Photo-Modulated Thin-Film Transistor Based on Quantum dots/Reduced Graphene Oxide Fragment-Decorated ZnO Nanowires/ Nano-Micro Letters

8, 247-253, 2016

Lei Wei

23

Size Tunable ZnO Nanoparticles To Enhance Electron Injection in Solution Processed QLEDs/ACS Photonics

3, 215-222, 2016

Lei Wei

24

Graphene nanomesh photodetector with effective charge tunnelling from quantum dots /Nanoscale

7, 4242-4249, 2015

Lei Wei

25

Large-Area Quantum-Dot Light Emitting Diode Arrays with ZnO Nanoparticles as Electron Transport/Injection Layer /Sci. Adv. Mater.

6(12), 2625-2631, 2014

Lei Wei

26

Field Emission Properties of Triode-Type Graphene Mesh Emitter Arrays/IEEE Electron. Dev. Lett.

35(7), 786-788, 2014

Lei Wei

27

Highly Electron Transparent Graphene for Field Emission Triode Gates /Adv. Func. Mater.

24(9), 1218-1227, 2014

Lei Wei

28

Fabrication and Characterization of a Planar Triode Structure Based on Honeycomb Carbon Nanotubes / IEEE Electron. Dev. Lett.

35(1), 126-128, 2014

Lei Wei

29

A graphene-based large area surface-conduction electron emission display/ Carbon

56, 255-263, 2013

Lei Wei

30

Hot Electron Field Emission via Individually Transistor-Ballasted Carbon Nanotube Arrays/ ACS Nano

6(4), 3236-3242, 2012

Lei Wei

31

Efficient surface-conducted field emission from ZnO nanotetrapods/ Appl. Phys. Lett.

91(16)163502 2007.10.15

Lei Wei

32

High efficiency surface-conducted field emission from a ZnO nanotetrapod and MgO nanoparticle composite emitter/ Appl. Phys. Lett.

93(25)  253501 2008.12

Lei Wei

33

Enhanced field emission from ZnO nanotetrapods on a carbon nanofiber buffered Ag film by screen printing/ Appl. Phys. Lett.

93(23)  233508 2008.12

Lei Wei

34

Very High Field-Emission Current From a Carbon-Nanotube Cathode With a Pulse Driving Mode/ IEEE Electron Device Lett.

30(5)  571-573 2009.5

Lei Wei

35

Investigation of ZnO Nanotetrapod and MgO Hybrid Field Emitter/ IEEE Electron Device Lett.

30(9)  1005-1006 2009.9

Lei Wei

36

An improved planar triode with ZnO nanopin field emitters/ IEEE Electron Device Lett.

28(8)688~6902007.8

Lei Wei

37

A stable field-emission light source with ZnO nanoemitters/ IEEE Electron Device Lett.

29(5)452~4552008.5

Lei Wei

38

Enhanced field emission from injector-like ZnO nanostructures with minimized screening effect / NANOTECHNOLOGY

18(13)1356042007.4.4

Sun Xiaowei

39

Surface conduction electron emission of ZnO nanostructures/ Nanotechnology

18(33)3352042007.8.22

Lei Wei

40

Field emission characteristic of screen-printed carbon nanotube cathode/ Applied Surface Science

(220) 96~104 2003.5.25

Lei Wei

41

Synthesis and efficient field emission of ZnO nanoinjectors/ Phys. E: Low-dimensional Syst. Nanostruct.

41(9)  1661-1664 2009.9

Lei Wei

42

Growth and optical and field emission properties of flower-like ZnO nanostructures with hexagonal crown/ Thin Solid Films

517(15)  4385-4389 2009.6

Lei Wei

43

Bilayer ZnO nanostructure fabricated by chemical bath and its application in quantum dot sensitized solar cell/ Applied Surface Science

255(17)  7508-7511 2009.6

Lei Wei

44

An oleic acid-capped CdSe quantum-dot sensitized solar cell/ Appl. Phys. Lett.

94(15)  153115 2009.4

X. W. Sun

45

Two-step growth of a hierarchical ZnO nanostructure by aqueous thermal decomposition in a neutral solution and its photovoltaic property/ Phys. E: Low-dimensional Syst. Nanostruct.

41(5)  822-827 2009.3

X. W. Sun

46

Influence of synthesis temperature on ZnO nanostructure morphologies and field emission properties/ Phys. E: Low-dimensional Syst. Nanostruct.

41(3)  470-473 2009.1

Lei Wei

47

Investigation of the Focus Characteristics of a Triode Structure in FED/ Chinese Journal of Electronics

18(1)  164-165 2009.1

Lei Wei

48

Field emission from carbon nanotube and tetrapod-like ZnO compound cathode fabricated by spin-coating method/ Applied Surface Science

255(8)  4636-4639 2009.2

Lei Wei

49

Field emission from injector-like ZnO nanostructure and its simulation/Journal of Physical Chemistry C

(35)   13447-13449  2008.9.4

Lei Wei

50

Stable field emission from screen-printed ZnO-tetrapod emitters/ J. Vac. Sci. Technol. B

26 (4)  1305-1308  2008.7

Lei Wei

51

Growth of multi-walled CNTs emitters on an oxygen-free copper substrate by chemical-vapor deposition/ Applied Surface Science

254 (20)   6633-6636  2008.8.15

Xiaobing Zhang

52

Shadow mask field emission display with carbon nanotubes emitters/Diamond and Related Materials

17(3)   217-222  2008.3

Lei Wei

53

High field emission enhancement of ZnO-nanorods via hydrothermal synthesis/Solid-State Electronics

52(2)   294-298  2008.2

Lei Wei

54

Surface modification of CNT-cathodes by an acid-erosion process/ Nanotechnology

18(50)5057012007.12.19

Lei Wei

55

A New Triode Structure With a Carbon Nanotube Cathode/ IEEE Transactions on Eletron Devices

54(11) 3079~30842007.11

Lei Wei

56

Study of the influence of the dielectric layer thickness in a CNT-FED/Ultramicroscopy

107(9) 844-848 2007.9

Lei Wei

57

Analysis of the driving characteristic of carbon nanotube triode with high frequency/J.Vac.Sci.Technol.B   

25(3)   829-832 2007.5

Xiaobing Zhang

58

Field emitters with low turn on electric field based on carbon fibers/Applied Surface Science   

253(14)   5980-5984 2007.5.15

Lei Wei

59

Application of ZnO nanopins as field emitters in a field-emission-display device/ J. Vac. Sci. Technol. B

25(2)962~9662007.3.30

Lei Wei

60

Residual gas analysis based on carbon nanotube field emission display/ J. Vac. Sci. Technol. B

25(2) 615~617 2007.3.30

Zhang Xiaobing

61

High-current-density field emission from multiwalled carbon nanotubes by chemical-vapor deposition with effective aging treatment/J.Vac.Sci.Technol.B

25(2)  583-585 2007.3

Xiaobing Zhang

62

Fabrication and field emission properties of regular hexagonal flowerlike ZnO nanowhiskers/J.Vac.Sci.Technol.B

25(2)   590-593 2007.3

Lei Wei

63

Architecture of field emission display based on a gate electrode of diabolo mode/ J.Vac.Sci.Technol.B

25(2)   623-626 2007.3

Xiaobing Zhang

64

Novel gun of rf power amplifier based on always-on cold cathode/ J.Vac.Sci.Technol.B

25(2)   646-650 2007.3

Lei Wei

65

Simulation of the cathode surface damages in a HOPFED during ion bombardment/J.Vac.Sci.Technol.B

23(6)   3148-3152 2005.11

Lei Wei

66

Aging process of I-cathode with magnetic ion trap/ APPLIED SURFACE SCIENCE

251(1-4)   146-150 2005.9.15

Xiaobing Zhang

67

Characteristics of a cold cathode electron source combined with secondary electron emission in a FED/ Applied Surface Science

251(1-4)   170-176 2005.9.15

Lei Wei

68

Analysis of the transverse energy distribution of hopping electrons through a glass funnel/ Applied Surface Science

251(1-4)   182-190 2005.9.15

Xiaobing Zhang

69

Fabrication and characterization of high-current-density carbon-nanotube cold cathodes/ Applied Surface Science

251(1-4)   249-253 2005.9.15

Lei Wei

70

New method to fabricate field-emission cathode of carbon nanotubes/Applied Surface Science

251(1-4)   254-257 2005.9.15

Lou Chaogang

71

Transverse energy distribution analysis in a field emission element with an insulator funnel/Nuclear Instruments & Methods in Physics Research

234(3)   210-218 2005.6

Lei Wei

72

Calculation of the emission performance of the carbon nanotube array/Applied Surface Science

245(1-4)   400-406 2005.5.30

Lei Wei

73

Ion bombardment in a normal-gate FED/ Applied Surface Science

243(1-4)   19-23 2005.4.30

Xiaobing Zhang

74

A novel gate structure in large diagonal size printable CNT-FED/ Applied Surface Science

239(3-4) 458-463 2005.1.31

Lei Wei

75

Field emission of vertically-aligned carbon nanotube arrays grown on porous silicon substrate/ Solid-State Electronics

48(12)   2147-2151 2004.12

Lei Wei

76

Numerical analysis for charge accumulation on the chunnel of field emission devices/Applied Surface Science  

228(1-4)   277-284 2004.4.30

Lei Wei

77

Probing local electric field distribution of nanotube arrays using electrostatic force microscopy/ Journal of Applied Physics

93(12)   9977-9982 2003.6.15

Ba Long

78

Optimization of a particle optical system in a mutilprocessor environment/ Nuclear Instruments & Methods in Physics Research

479(2-3)  611-617 2002.3.1

Lei Wei

79

Study of the emission performance of carbon nanotubes/ J.Vac.Sci.Technol.B

18(6)   2704-2709 2000.11

Lei Wei

80

Analysis of the emission performance of field emitter with Laplace interpolation method/ Applied Surface Science   

161(1-2)   1-8 2000.7

Lei Wei

81

Sensitivity analysis of the field emitter/ J.Vac.Sci.Technol.B

17(4)  1575-1579 1999.7

Lei Wei

82

Analysis of the "dilemma effect" in fifth-order deflection aberration/ Nuclear Instruments & Methods in Physics Research

427(1-2) 404-407 1999.5.11

Xiaobing Zhang

83

Simulation of field emitter array in diode model/Nuclear Instruments & Methods in Physics Research

423(2-3)   213-222 1999.3.1

Lei Wei

84

Perturbation of trajectory caused by small displacement of electrode/ Nuclear Instruments & Methods in Physics Research   

420(3)   369-379 1999.1.11

Lei Wei

85

Simulation study on performance of field emitter array/J.Vac.Sci.Technol.B

16(5)   2881-2886 1998.9

Lei Wei

86

Influence of charge deposition in a field-emission display panel/Applied Surface Science

254(7)  2096-2101 2008.1.30

Lei Wei

87

Study of the triode structure in a field emission display element/J.Vac.Sci.Technol.B

24(2)   962-966 2006.3

Lei Wei

88

Study of modulation methods in field emission displays/Surface and Interface Analysis

36(5-6)   430-434 2004.5

Lei Wei

89

Influence of the fringe field and the field interaction on the emission performance of a diode emitter array/Nuclear Instruments & Methods in Physics Research   

451(2)   389-393 2000.9.1

Lei Wei

90

Determination of the acceptable tolerance in the manufacture of electron optical system/Nuclear Instruments & Methods in Physics Research

427(1-2)  393-398 1999.5.11

Lei Wei




L. Wei, simplified C.V. 2