王琦龙

发布者:周涛发布时间:2018-10-17浏览次数:367

基本资料

姓名:王琦龙性别:http://electronic.seu.edu.cn/_upload/article/9d/46/fa107a00443bab24a1be7e79d9f2/18d4fc3b-1609-41f5-a61c-7c3c9907af3f.jpg
学历:博士生日:1976.07
职称:教授职务:
电话:83792449-832Email:northrockwql@seu.edu.cn

研究方向

物理电子学、光学工程
 

研究领域:等离激元光电器件、超快电子源、冷阴极微波电真空器件及碳基纳电子器件等

个人简历

教育经历
1995.09 - 1999.07,哈尔滨工程大学物理系,光电子技术专业,获学士学位
1999.09 - 2002.03,东南大学电子工程系,物理电子学,获硕士学位
2002.03 - 2005.06,东南大学电子工程系,物理电子学,获博士学位


职业
/进修经历
2005.03 - 2005.12,上海广电(SVA)电子股份有限公司FPD中心,团队负责人
2006.01 - 2007.12,东南大学生物医学工程博士后流动站,博士后研究
2007.12 - 2009.03,东南大学电子科学与工程学院,讲师
2009.03 - 2009.08,北京语言大学,中法FFCSA基金会法语强化培训
2009.10 - 2011.05,法国鲁昂大学(Université de Rouen)材料物理中心GPM,博士后
2012.07 - 2012.08,美国伍斯特理工学院(WPI),东南大学骨干教师进修
2009.04 - 至今,东南大学电子科学与工程学院,教授/博士生导师


学术兼职
IEEE(国际电子电气工程师学会)会员
中国真空学会电真空分会学术委员会成员
SID(国际信息显示学会)会员及学生会员导师
FFCSA(中法科学院应用科学基金会)学会成员
中国光学学会会员
江苏真空学会理事/副秘书长

研究成果

期刊论文:
1. Xu Ji, Gu Zhuyan, Yang Wenxin, Wang Qilong, et al.  Graphene-Based Nanoscale Vacuum Channel Transistor. Nanoscale Research Letters, 2018, 13: 311.
2. Zhiyang Qi, Qilong Wang*, et al. Au nanoparticle-decorated silicon pyramids for plasmon-enhanced hot electron near-infrared photodetection. Nanotechnology, 2017, 28: 275202.
3. Yusheng Zhai, Wang Qilong*, et al. Multiple-band perfect absorbers based on the combination of Fabry-Perot resonance and the gap plasmon resonance. Optics Communications, 2017, 399: 28-33.
4. Yusheng Zhai, Qilong Wang*, et al. Experimental investigation of energy transfer between CdSe/ZnS quantum dots and different-sized gold nanoparticles. Physica E: Low-dimensional Systems and Nanostructures, 2017, (88): 109-114.
5. Ji Xu, Qilong Wang*, et al. Field Emission of Wet Transferred Suspended Graphene Fabricated on Interdigitated Electrodes. ACS Appl. Mater. Interfaces, 2016, 8(5): 3295-3300.
6. Zhiyang Qi, Qilong Wang*, et al. Plasmon-Enhanced Energy Transfer between Quantum Dots and Tunable Film-Coupled Nanoparticles. Journal of Physics D: Applied Physics, 2016, 49(23):235103.
7. Xu, Ji, Qilong Wang*, et al. Enhanced electron emission of directly transferred few-layer graphene decorated with gold nanoparticles. RSC Advances, 2016, 6(81): 78170-78175.
8. Wang Qilong*, Li Xiangkun, et al. High brightness field emission from printed carbon nanotubes in an S-band microwave gun. Journal of Applied Physics, 2016, 119(8): 084504.
9. Wang Qilong*, Yu Cairu, et al. High-Current-Density field emission from self-heating printed carbon nanotubes. Fullerenes, Nanotubes and Carbon Nanostructures, 2016, 24(4): 273-277.
10. Yunsong Di, Qilong Wang, et al. A vacuum sealed high emission current and transmission efficiency carbon nanotube triode. AIP Advances, 2016, 6: 045114.
11. Ji Xu, Qilong Wang*, et al. Improved Field Emission Properties of Multidimensional Graphene-Nanotube Emitters Decorated With Au Nanoparticles. IEEE ELECTRON DEVICE LETTERS, 2015, 36(7): 723-725.
12. Xu, Ji, Qilong Wang*, et al. Improved field emission properties of multidimensional graphene-nanotube emitters decorated with Au nanoparticles. IEEE Electron Device Letters, 2015, 7(36): 723-725.
13. Xu, Ji, Qilong Wang*, et al. Study on the frequency characteristics of nanogap electron devices. Journal of Applied Physics, 2015, 117(20): 204504.
14. Qilong Wang, Yusheng Zhai, et al. A Modified Transmission Line Model for Extraordinary Optical Transmission Through Sub-wavelength Slits. Plasmonics, 2015, 10 (6): 1545-1549.
15. Yusheng Zhai, Qilong Wang*, et al, Study on the transmission properties of sub-wavelength metallic tapered gratings with different-shaped walls“. Journal of Optics, 2015, 44(1): 20-25.
16. Yusheng Zhai, Qilong Wang*, et al, Broadband extraordinary optical transmission of subwavelength metallic grating with parabolic wall. Journal of Modern Optics, 2014, 61(6): 530-535.
17. Wang Qilong*, Cui Yunkang, et al. Very large cathode current and long term stability of vacuum sealed tubes with engrafted-carbon-nanotube emitters. Diamond and Related Materials, 2014, 47: 40-45.
18. 陈广甸, 翟雨生, 王琦龙*, et al. 基于等离激元热电子效应的光电晶体管制备及其特性. 光学精密工程26.3 (2018): 517-522.

会议论文:
1. Zhiyang Qi, Qilong Wang*, et al. Study on photoemission and tunneling in light-modulated scanning tunneling microscopy. 31st International Vacuum Nanoelectronics Conference (IVNC),Kyoto (Japan), JUL 9-13, 2018.
2. Lin Xu, Zhiyang Qi, Qilong Wang*, et al. Study on Photoemission of carbon nanotubes modified by Au nanoparticles. 31st International Vacuum Nanoelectronics Conference (IVNC),Kyoto (Japan), JUL 9-13, 2018.
3. Jian Zhang, Qilong Wang, et al. Study of multi-function electron gun based on CNTs cathode. 31st International Vacuum Nanoelectronics Conference (IVNC),Kyoto (Japan), JUL 9-13, 2018.
4. Ji Xu, Qilong Wang, et al. Fabrication of two- and three-terminal nanogap structure by using electron beam lithography. 30st International Vacuum Nanoelectronics Conference (IVNC), Regensburg (Germany), JUL 10-14, 2017.
5. Ji Xu, Qilong Wang, et al. In-situ Field Emission Measurement and Field Emission Enhancement of Few-layer Graphene Decorated with Au Nanoparticles. 29st International Vacuum Nanoelectronics Conference (IVNC), Vancouver (Canada), JUL 11-15, 2016.
6. 陈心全,刘京,王琦龙,崔云康,狄云松,赵健,黄倩倩,张晓兵,碳纳米管场致发射阴极电子枪的电子光学研究,第八届华东三省一市真空学术交流会,7,安徽合肥,2013.10.18-2013.10.20
7. 陈心全,王琦龙,崔云康,狄云松,张晓兵,冷壁法制备大发射电流密度复合阴极及其性能研究,中国真空学会(Chinese Vacuum Society),甘肃兰州,2012.9.22-2012.9.24
8. 翟雨生,王琦龙,具备光吸收增强效应的银纳米颗粒层的制备及性能研究,中国真空学会(Chinese Vacuum Society),甘肃兰州,2012.9.21-2012.9.24
9. Yuhseng ZhaiQilong Wang(*)Xiaohua LiXinquan ChenBroadband extraordinary optical transmission of sub-wavelength metallic grating with parabolic wallInternational Conference on Nanoscience &Technology China 2013 Beijing),2013.9.5-2013.9.7
10. Yusheng ZhaiQilong Wang(*)Xiaohua LiXinquan ChenQianqian HuangWei LeiXiaobing ZhangStudy on the transmission properties of sub-wavelength metallic grating with different-shaped slitwalls2013年中国光学学会学术大会(长沙),2013.8.15-2013.8.18
11. 崔云康,张晓兵,雷威,陈静,狄云松,王琦龙,李驰,氧化钡纳米棒制备及其场发射特性研究,中国电子学会真空电子学分会第十九届学术年会,4,安徽黄山,2013.8.22-2013.8.24  

著作:
1. 张彤,王琦龙,张晓阳,李晨,表面等离激元纳米光子学(Surface Plasmon Nanophotonics),东南大学出版社/Springer2015
2. 张彤,王琦龙,张晓阳,李晨,表面等离激元学——基础与应用(Plasmonics: Fundamentals and Applications),东南大学出版社/Springer2015

专利:
(一)发明授权专利:
1. 一种响应光谱可调节的光电探测器,CN106784056B2018,王琦龙、陈广甸、翟雨生
2. 基于等离激元纳米结构的动态全息三维再现装置,CN104345463B2016,王琦龙、翟雨生、齐志央、李晓华
3. 电压调制的周期性亚波长金属光栅滤波器及其制备方法,CN103744198B2016,王琦龙、翟雨生、吴晟琦、黄倩倩、齐志央
4. 基于调制光源及正负衍射级分开探测结构的波前检测装置,CN103471725B2015,王琦龙、赵健、翟雨生、黄倩倩、刘京
5. 一种自动对准的双模式波前传感器及测量方法,CN103557947B2015,王琦龙、赵健、黄倩倩、翟雨生
6. 带有底栅控电极的平面电子发射光探测器,CN103258895B2015,王琦龙、娄朝刚、张晓兵、雷威、翟雨生
7. 一种大电流发射的复合阴极结构,CN102832085B2015,陈心全、王琦龙、崔云康、李驰、狄云松
8.光辅助/脉冲调制用大电流密度电子源及其应用方法,CN102280330B2014,王琦龙; 雷威; 张晓兵
9. 近场太赫兹THz时域光谱表征方法及其测试装置,CN102331403B2013,王琦龙
10. 一种冷阴极聚焦型X射线管,CN101494150B2011,迟云雁、王琦龙、张晓兵、雷威、娄朝刚
11. 场致发射阴极X射线管,CN101101848B2011,王琦龙、殷晓伟、雷威、张晓兵、娄朝刚
12. 微波源阴极及其制造方法,CN101140845B2010,王琦龙、雷威、张晓兵、朱卓娅、殷晓伟
(二)发明公布专利
13. 一种基于新型纳米结构的光阴极及其制备方法,2017113261978,王琦龙、徐林、齐志央、田润知、张建、张晓兵、屠彦
14.一种基于氮化钛的新型纳米结构光阴极,2017104208411,王琦龙、齐志央、徐林、田润知、张建、屠彦
15.一种响应光谱可调节的光电探测器,2016111975841,王琦龙、陈广甸、翟雨生
16.一种基于锥形超表面结构的光伏型光电探测器及其制备方法,2016109475791,王琦龙、陈广甸、翟雨生、李裕培、李晓华
17.一种偏振敏感型光电探测器,2016106171544,王琦龙、翟雨生、陈广甸、李晓华
18.一种尖锥阵列场致发射三极结构及其制作方法,2016103129136,狄云松、杜小飞、王琦龙、张晓兵、雷威
19.基于等离激元增强的光增强/调制电子发射的装置及方法,2015109789436,王琦龙、翟雨生、杜小飞、齐志央、李晓华|
20.一种尖锥阴极与锥形栅孔对应的冷阴极三极管,2014102121922,狄云松、于彩茹、张晓兵、王琦龙、雷威、崔云康

21. 一种带电场补偿的冷阴极三极管,2013100788744,张晓兵、雷威、王琦龙