王光辉

发布者:袁敏敏发布时间:2020-05-12浏览次数:1660




王光辉

南京大学现代工学院教授

智能光传感与调控技术教育部重点实验室副主任

办公室地址:鼓楼区平仓巷5号,协鑫楼510

Email:wangguanghui@nju.edu.cn

研究方向:

光传感与微流控芯片技术及其在生物医疗中的应用;近场光镊及微纳光操控技术。

开设课程:

光电信息工程导论(本科二年级平台课)

个人简介:

王光辉,南京大学现代工学院教授,智能光传感与调控技术教育部重点实验室副主任,江苏省双创博士引进人才。2011年于新加坡南洋理工大学电子与电机工程学院,获博士学位;并于2011年到2013年间于香港中文大学电子工程系做博士后研究。主持科技部重点研发计划课题一项(2016-2019);主持国家自然基金青年基金一项(2014-2016);主持国家自然基金面上项目一项(2019-2022);以第二申请人参与自然基金重点项目一项(2016-2020);近年来在国际上主要期刊发表或合作发表SCI论文50余篇,专利17余篇,总引用数1000余次。研究中把光学传感检测技术同微流控芯片技术结合,以微流体、单细胞、纳米颗粒、生物大分子为对象,采用Lab-on-a-Disc;Lab-in-a-Fiber;Lab-on-a-Chip三种技术,对超微量物质进行集成化操控,反应控制,及高灵敏度的光学检测,并拓展其在生物医疗、公共安全等方面的应用。


科研成果

代表论文:

[1]Victor W. L. Ho, Yao Chang, Yang Liu, Chi Zhang, Yuhua Li, Roy R.Davidson, Brent E. Little, GuanghuiWang,*and Sai T. Chu,* Optical Trapping and Manipulating with a SilicaMicroring Resonator in a Self-Locked Scheme,Micromachines,11, 202, (2020)

[2] YuZheng, Perry Ping Shum, Yiyang Luo, Yanan Zhang, Wenjun Ni, GuanghuiWang,Zhifang Wu, Xuan Quyen Dinh, Jean-Louis Auguste, and Georges Humbert,"High-resolution, large-dynamic-range multimode interferometersensor based on a suspended-core microstructured optical fiber,"Opt. Lett. 45, 1017-1020 (2020)

[3] YihuiWang, Zhongwen Li, Xinyu Huang, Wenbin Ji, Xinghai Ning, KangkangLiu, Jie Tan, Jiachen Yang, Ho-pui Ho and GuanghuiWang*,On-board control of wax valve on active centrifugal microfluidic chipand its application for plasmid DNA extraction, Microfluidicsand Nanofluidics,23, 112 (2019) (IF=2.9)

[4]Wenhao Xu, Yuye Wang, Wenxiang Jiao, Feng Wang, Xiaofu Xu, Min Jiang,Ho-pui Ho, GuanghuiWang*,Tunableoptofluidic sorting and manipulation on micro-ring resonators from astatistic perspective"Opt.Lett. 44(13), 3326-3229, (2019) (IF=3.6)

[5] QianChu, Zhiqiang Jin, Xingtao Yu, Caoxin Li, Weihua Zhang, Wenbing Ji,Bo Lin, Perry Ping Shum, Xuping Zhang, and GuanghuiWang*,"Volumetric enhancement of Raman scattering for fast detectionbased on a silver-lined hollow-core fiber," Opt.Express 27,10370-10382 (2019)

[6] MinJiang, GuanghuiWang*,Wenhao Xu, Xiaofu Xu, Wenbin Ji, Ningmu Zou, and Xuping Zhang,"Integrated optofluidic micro-pumps in micro-channels withuniform excitation of a polarization rotating beam," Opt.Lett.44, 53-56 (2019)

[7]Xiaofu Xu, GuanghuiWang*,Wenxiang Jiao, Wenbin Ji, Min Jiang, and Xuping Zhang, "Multi-levelsorting of nanoparticles on multi-step optical waveguide splitter,"Opt.Express 26,29262-29271 (2018)

[8] RanAn, GuanghuiWang*,Wenbin Ji, Wenxiang Jiao, Min Jiang, Yao Chang, Xiaofu Xu, NingmuZou, and Xuping Zhang, "Controllable trapping and releasing ofnanoparticles by a standing wave on optical waveguides," Opt.Lett.43, 3901-3904 (2018)

[9] M.Jiang, G.Wang*,W. Xu, W. Ji, N. Zou, H.-p. Ho and X. Zhang, Two-dimensionalarbitrary nano-manipulation on plasmonic metasurface Opt.Lett.43(7),(2018).

[10]Minghui Tang, Xinyu Huang, Qian Chu, Xinghai Ning, Yuye Wang, Siu-KaiKong, Xuping Zhang, GuanghuiWang*and Ho-Pui Ho*, A linear concentration gradient generator based onmulti-layered centrifugal microfluidics and its application inantimicrobial susceptibility testing. Labon a Chip,18, 1452. (2018)

[11]G. Wang*,J. Tan, M. Tang, C. Zhang, D. Zhang, W. Ji, J. Chen, H.-P. Ho* and X.Zhang, Binary centrifugal microfluidics enabling novel, digitaladdressable functions for valving and routing. Labon a Chip,18, 1197. (2018)(InsideCover 封面)

[12] Z.Jin, Q. Chu, W. Xu, H. Cai, W. Ji, G.Wang*,B. Lin and X. Zhang, All-fiber Raman Biosensor by CombiningReflection and Transmission Mode. IEEEPhotonics Technology Letters,30(4):387-390.(2018)

[13] Xu,X., Dong, Y.,G. Wang*,Jiao, W., Ying, Z., Ho, H.-P., Zhang, X., 2018. ReconfigurableSorting of Nanoparticles on a Thermal Tuning Silicon BasedOptofluidic Chip. IEEEPhotonics Journal10(1), 4900107.(2018)

[14] Li,B. L. , Li, D. R. , Chen, J. H. , Liu, Z. Y. , Wang, G. H. , &Zhang Xuping, Y.Q. Lu. (2018). Hollow core micro-fiber for opticalwave guiding and microfluidic manipulation. Sensorsand Actuators B,262 953–957 (2018)

[15] M.Jiang, G.Wang*,W. Jiao, Ho-Pui Ho, Xuping Zhang, Plasmonicnon-concentric nano-rings array as unidirectional nano-opticalconveyor belt actuated by polarization rotation,OpticsLetters,42(2):259-262(2017)

[16] D.Fan, Z. Jin, G.Wang*,et al. Extremely high-efficiencycoupling method for hollow-corephotonic crystal fiber. IEEEPhotonics Journal,9(3),7104108, (2017)

[17] M.Tang, F.Loo, Y. Wang, X. Zhang, H. Kwok, M. Hui, C. Leung, S.-K. KongG.Wang* andH.-P. Ho*.Motor-assistedchip-in-a-tube (MACT): A new 2- and 3-dimensional centrifugalmicrofluidic platform for biomedical applications,Labon a Chip,17,474-483(2017)

[18]Z.Ying, G.Wang*,M. Jiang, W. Jiao, X. Zhang, and R. T. Chen, Extraordinary opticaltransmission in a hybrid plasmonic waveguide, IEEEPhotonics Journal,8(5),4502107 (2016)

[19] Z.Ding, Y. Zhang, G.Wang*,M. Tang, H. Ho, X. Zhang, An In-line Spectrophotometer on CentrifugalMicrofluidics Platform for Real-time Protein Determination andCalibration, Labon a Chip,16, 3604 (2016)  

[20]W.Jiao, G.Wang*,Z.Ying, Z.Kang, T.Sun, N.Zou, H.Ho, and X.Zhang, Optofluidicswitching of nanoparticles based on a WDM tree splitter, IEEEPhotonics Journal,8(3),7803010 (2016)

[21]W.Jiao, G.Wang*,Z.Ying, Y. Zou, H.Ho, T.Sun, Y. Huang, and X.Zhang, The switching ofnanoparticles in large-scale hybrid electro-optofluidics integration,OpticsLetters,41(11),2652-2655 (2016)  

[22]G. Wang*;Jiao, W.; Dong, Y; Wei, L, Hu, J, Shum, P; Zhang, X., The NumericalModeling of 3D Micro Fiber Couplers and Resonators, IEEEPhotonics Technology Letters,, 28(15),1707-1710, (2016)

[23]G. Wang;Ying, Z.; Ho, H.-p.; Huang, Y.; Zou, N.; Zhang, X., Nano-opticalconveyor belt with waveguide-coupled excitation. OpticsLetters, 41,528-531, (2016)

[24] M.Tang, G.Wang,S.-K. Kong and H.-P. Ho. A Review of Biomedical CentrifugalMicrofluidic Platforms. Micromachines,7(2):26, (2016).

[25]  J.Chen, Z. Kang, G.Wang,F.-C. Loo, S.-K. Kong, and H.-P. Ho, Optofluidic Guiding, Valving,Switching and Mixing based on Plasmonic Heating in Random GoldNanoisland Substrate, Labon a Chip,vol.15,2504, (2015).

[26] Z.Ying, G.Wang*,X. Zhang, Y. Huang, H.-p. Ho, and Y. Zhang, Ultracompact TE-passpolarizer based on a hybrid plasmonic waveguide, IEEEPhotonics Technology Letters,vol. 27, pp. 201 - 204, (2015).

[27]Zhoufeng Ying, G.Wang*, XupingZhang, Ho-pui Ho, and Ying Huang, Ultracompact and broadbandpolarization beam splitter based on polarization-dependent criticalguiding condition, Opt.Lett. 40,2134-2137, (2015)

[28] H.P.Ho, P.-m. Lau, H.-c. Kwok, S.-y. Wu, M. Gao, A. K.-l. Cheung, Q.Chen, GuanghuiWang,Y.-w. Kwan, and C.-k. Wong, Allergen screening bioassays: recentdevelopments in lab-on-a-chip and lab-on-a-disc systems, Bioanalysis6,2005-2018, (2014)

[29]G. Wang,H. Ho, Q. Chen, K.-L. Yang, H.-C. Kwok, S. Y. Wu, S.-K. Kong, Y.Kwan, and X. Zhang, A Lab-in-a-droplet Bioassay Strategy forCentrifugal Microfluidics with Density Difference Pumping, Power toDisc and Bidirectional Flow Control, Labon a Chip,13, 3698, (2013)

[30]  Wo,J.; G.Wang;Cui, Y.; Sun, Q.; Liang, R.; Shum, P. P.; Liu, D., Refractive indexsensor using microfiber-based Mach–Zehnder interferometer. OpticsLetters 2012,37, 67-69.

[31]G. Wang;Shum, P. P.; Ho, H.-p.; Yu, X.; Hu, D. J. J.; Cui, Y.; Tong, L.; Lin,C., Modeling and analysis of localized biosensing and index sensingby introducing effective phase shift in microfiber Bragg grating(µFBG). Opticsexpress2011,19, 8930-8938.

[32]G.Wang;Shum, P. P.; Tong, L.; Li, C. M.; Lin, C., Polarization effects inmicrofiber loop and knot resonators. IEEEPhotonics Technology Letters,2010, 22, 586-588.


培养研究生情况以及学生获得的荣誉:

1、江苏省优秀研究生:

应宙锋(2016)

2、所指导学生获得国家奖学金:

应宙锋(2016)

王煜烨(2014)

焦文祥(2017)

3、团队产业化开发获奖:

(1)基于微流控芯片的便携式胃癌早筛诊断设备,第七届全国大学生光电设计竞赛一等奖银奖及优秀指导教师奖(2019年);

(2)第四届南京大学创业计划竞赛,特等奖,(2017年);

(3)第十五届挑战杯全国大学生课外学术科技作品竞赛,南京大学选拔赛,特等奖,(2017年);

(4)基于微流控技术的便携式分子诊断仪,参加江苏省大学生科技成果展;(2017年)