1999.09-2005.06 南京外国语学校

2005.09-2009.06 加拿大多伦多大学 电子工程本科

2009.09-2015.08 加拿大麦吉尔大学 电子工程博士

2015.08-2016.12 英国南安普顿大学光电子研究中心

博士后/研究学者

研究方向：2微米光电器件。

2017.01-2019.01 剑桥大学石墨烯中心

博士后/研究学者

研究方向：石墨烯光电器件。

2019.01-2021.02 蒙特利尔大学工学院

博士后/研究学者

研究方向：黑磷光电器件。

半导体物理基础

信息电子技术中的场与波

光波通信理论与系统

光网技术概论

研究方向为面向芯粒技术与先进计算的光电集成电路，开发基于大模型智能体、机器学习逆向设计等方法，研究新型波导、光源、探测、调制等组件及子系统。

主持项目：

重点研发计划，2019YFB2205303，新型调制器件及工艺，2020.1-2022.12；

国家自然科学基金面上项目，高效率高响应率薄膜铌酸锂黑磷异质集成光电探测器机理与技术研究，2024.01-2027.12；

国家自然科学基金青年项目，高效率高集成度硅基黑磷中红外光源机理与技术研究，2023.1-2025.12；

江苏省自然科学基金青年项目，黑磷中红外光源机理及制备工艺研究，2021.7-2024.6

碳基电子重点实验室基金，2023.11-2025.10

参与项目：

江苏省科技重大专项高速低功耗二维材料光电集成芯片，2025.7-2029.6；

NSERC Strategic Partner  2019-2020；

Graphene Flagship 2018-2019；

EPSRC Photonics HyperHighway 2015-2017；

NSERC Si-EPIC 2014-2015；

NSERC NGON 2012-2015。

a. Articles published or accepted in refereed journals

J29. W. Xu, X. Jiang, Y. Bao, J. Lu,Z. Ni, J. Wang*, High Sensitivity and Large Scanning Range Optical Antennas Enabled by Multicasting Ridge-Waveguide Subwavelength Structure Arrays. ACS Photonics, 12, 9, 2025. 

J28. B. Luo*, R. Wang, T. Zhao, L. Li, Q. Chen, P. Wang, J. Wang*, Q. Han, Y. Zhang, B. Zhang, D. Li, Local Strain-Dependent Etching Patterns of Chemical Vapor Deposited Molybdenum Disulfide. Small Methods, 2400770, 2024. 

J27. P. Wang, T. Zhao, S. Xiao, Q. Chen, Y. Zhang, L. Li, J. Wang*, Y. Xue, B. Zhang, D. Li, and B. Luo, Geometry-Derived Asymmetric Schottky Contacts Based on Chemical Vapor Deposited MoS2. ACS Applied Electronic Materials, 6, 10, 7475-7483, 2024. 

J26. X. Wu, Z.Y. Cao, T. Zhao, Y. Wu*, Z. Li, S. Doukas, E. Lidorikis, Y. Xue, L. Liu, O. Ghaebi, G. Soavi, J. Lu, Z. Ni*, J. Wang*.  High Efficiency Graphene-Silicon Hybrid-Integrated Thermal and Electro-Optical Modulator. Nanoscale Horizons, 9, 8, 2024. 

J25. M. Tao, B. Zhang, T. Zhao, X. Wu, M. Liu, G. Dong*, and J. Wang*.  Towards High Quality Transferred Barium Titanate Ferroelectric Hybrid Integrated Modulator on Silicon. Light Advanced Manufacturing, 5, 4, 2024. 

J24. Z. Xie, T. Zhao, X. Yu, J. Wang.  Nonlinear Optical Properties of 2D Materials and their Applications. Small, 2311621, 2024. 

J23. M. Zhang, L. Yang, X. Wu, and J. Wang.  Black Phosphorus for Photonic Integrated Circuits. Research, 6, 0206, 2023. 

J22. X. G. Zhang, Y. L. Sun, B. Zhu, J. Wang, T. Zhao, W. X. Jiang*, Z. Huang, Z. Zhang, and T. J. Cui*,  Optoelectronic Metasurface for Free-Space Optical–Microwave Interactions. ACS Applied Materials & Interfaces, 15, 18, 22744-22751, 2023.

J21. Y. Xue, X. Wu, K. Chen, J. Wang* and L. Liu*, Waveguide integrated high-speed black phosphorus photodetector on thin film lithium niobate platform. Optical Materials Express, 13 (1), 272-281, 2023. 

J20. J. Wang*, C. Fang, N. Dong, W. Jiang, Z. Chen, L. Chen, X. Sun, Ultra-Broadband Subwavelength Grating Coupler for Bound State in Continuum, IEEE Photonics Journal, vol. 14, no. 4, pp. 1-4, Aug. 2022.

J19. J. Wang, C. Fang, L R. Chen, Subwavelength Grating Waveguide for Microwave Photonic Applications, Acta Electronica Sinica, 2022, 50(9): 2233-2241.

J18. J. Wang, A. Rousseau, M. Yang, T. Low, S. Francoeur, and S. Kéna-Cohen*, Mid-infrared polarized emission from black phosphorus light-emitting diodes. Nano Letters 20, 5, 3651–3655 (2020).

J17. J. Mao, O. Ortiz, J. Wang, A. Malinge, A. Badia, and S. Kena-Cohen*, Langmuir-Blodgett Fabrication of Large-Area Black Phosphorus-C60 Thin Films and Heterojunction Photodetectors. 2020, 12 (38) , 19814-19823.

J16. C. Trovatello, H. P. C. Miranda, A. Molina-Sánchez, R. Borrego Varillas, C. Manzoni, L. Moretti, L. Ganzer, M. Maiuri, J. Wang, D. Dumcenco, A. Kis, L. Wirtz, A. Marini, G. Soavi, A. C. Ferrari*, G. Cerullo, D. Sangalli, and S. Dal Conte, Strongly coupled coherent phonons in single-layer MoS2. ACS Nano 2020, 14, 5, 5700–5710.

J15. J. Wang, A Rousseau, E. Eizner, A. Phaneuf-L'Heureux, L. Schue, S. Francoeur, and S. Kéna-Cohen*, Spectral responsivity and photoconductive gain in thin film black phosphorus photodetectors. ACS Photonics 2019 6 (12), 3092-3099.

J14. J. E. Muench, A. Ruocco, M. A. Giambra, V. Miseikis, D. Zhang, J. Wang, H. F. Y. Watson, G. C. Park, S. Akhavan, V. Sorianello, M. Midrio, A. Tomadin, C. Coletti, M. Romagnoli, A. C. Ferrari*, and I. Goykhman, Waveguide-integrated, plasmonic enhanced graphene photodetectors. Nano letters 19 (11), 7632-7644 (2019).

J13. G. Soavi*, G. Wang, H. Rostami, D. Purdie, D. De Fazio, T. Ma, B. Luo, J. Wang, A. K. Ott, D. Yoon, S. Bourelle, J. E. Muench, I. Goykhman, S. Dal Conte, M. Celebrano, A. Tomadin, M. Polini, G. Cerullo, and A. C. Ferrari*, “Broadband, electrically tuneable, third harmonic generation in graphene,” Nature Nanotechnology 13, 583–588, 2018.

J12. L. R. Chen*, J. Wang, B. Naghdi and I. Glesk, Subwavelength Grating Waveguide Devices for Telecommunications Applications, in IEEE Journal of Selected Topics in Quantum Electronics, vol. 25, no. 3, pp. 1-11, May-June 2019, Art no. 8200111. (Invited)

J11. W. Cao, D. Hagan, D. Thomson, M. Nedeljkovic, C. G. Littlejohns, A. Knights, S. Alam, J. Wang, F. Gardes, W. Zhang, M. Rouifed, T. G. Xin, W. Wang, H. Wang, G. T. Reed, and G. Z. Mashanovich*, “High-speed silicon modulators for the 2 μm wavelength band,” Optica, vol. 5, no. 9, 1055-1062, 2018.

J10. J. Wang*, I. Glesk, and L. R. Chen, “Subwavelength grating filtering devices,” Optics Express, vol. 22, pp. 15335-15345, 2014. (Top 10 downloads of the month.)

J9. J. Wang#, R. Ashrafi#, R. Adams, I. Glesk, I. Gasulla, J. Capmany, and L. R. Chen*, “Subwavelength grating enabled on-chip ultracompact optical true time delay line,” Scientfic Report 6:30235, 2016.

J8. J. Wang*, S. Liang, Y. Jung*, Q. Kang, S. Alam, and D. J. Richardson, “Broadband Silica-Based Thulium Doped Fiber Amplifier Employing Multi-Wavelength Pumping,” Optics Express, vol. 24, 23001-23008, 2016.

J7. J. Wang, Ivan Glesk and L. R. Chen*, “Subwavelength grating device in silicon photonics,” Science Bulletin, 61(11), pp. 879-888,2016. (invited)

J6. J. Wang* and L. R. Chen, “Low crosstalk Bragg grating/Mach-Zehnder interferometer optical add-drop multiplexer in silicon photonics,” Optics Express, vol. 23, issue 20, pp. 26450-26459, 2015.

J5. J. Wang, R. Ashrafi, Martin Rochette, and L. R. Chen*, “Chirped microwave pulse generation using an integrated spectral shaper based on a Sagnac loop incorporating a Bragg grating in SiP,” IEEE Photonics Technology Letters, vol. 27, no. 17, pp. 1876-1879, 2015.

J4. J. Wang*, I. Glesk, and L. R. Chen, “Subwavelength grating Bragg grating filters in silicon-on-insulator,” Electronics Letters, vol. 51, no. 9, p. 712-714, 2015. (Highlighted in issue.)

J3. J. Wang and L. R. Chen*, “Multichannel OADM using cascaded Bragg grating/Mach-Zehnder interferometers in SOI,” Electronics Letters, vol. 51, no. 18, pp. 1431-1433, 2015.

J2. R. Adams, R. Ashrafi, J. Wang, M. Rezagholipour Dizaji, and L. R. Chen*, “RF-arbitrary waveform generation based on microwave photonic filtering,” IEEE Photonics Journal, vol. 6, no. 5, pp. 5501208, 2014.

J1. L. R. Chen* and J. Wang, All-optical RZ-OOK to RZ-BPSK conversion with multicasting based on XPM in highly nonlinear fiber, Optics Communications, vol. 285, pp. 3459-3465, 2012.

b. Conference contributions

C22. X. Wu, C. Fang, J. Wang, N. Dong, W. Jiang, Z. Chen, N. Bai, X. Sun,  High-Q Subwavelength Grating Racetrack Micro-ring Resonators Based on Bound State in Continuum, in Asia Communications and Photonics Conference, 2022, 1453-1455.

C21. Y. Xue, X. Wu, J. Wang, L. Liu,  High-Performance Black Phosphorus Photodetector on Thin Film Lithium Niobate, in Asia Communications and Photonics Conference, 2022, 1334-1336.

C20. J. Wang, A. Rousseau, M. Yang, T. Low, S. Francoeur, S. Kéna-Cohen,  A Thin Film Black Phosphorus Light-Emitting Diode, in Conference on Lasers and Electro-Optics, OSA Technical Digest (Optical Society of America, 2020), paper AW4M.3.

C19. D. J. Thomson, K. Li, W. Cao, D. Hagan, S. Liu, F. Meng, M. Nedeljkovic, A. Z. Khokhar, C. G. Littlejohns, W. Zhang, M. Ebert, A. Shakoor, B. Chen, S. Alam, J. Wang, X. Chen, L. Mastronardi, M. Banakar, L. Crudgington, F. Y. Gardes, J. X. B. Sia, W. Wang, Z. Qiao, X. Li, X. Guo, H. Wang, P. Wilson, G. Z. Mashanovich, A, Knights, and G. T. Reed,  Silicon Optical Modulators for Data Transmission in Different Wavelength Bands, in 2019 21st International Conference on Transparent Optical Networks (ICTON), Angers, France, 2019, pp. 1-4.

C18. M. Maiuri, S. D. Conte, M. Russo, J. Wang, G. Soavi, D. Dumcenco, A. Kis, M. Selig, S. Khun, M. Richter, A. Knorr, A. C. Ferrari, and G. Cerullo, Excitonic Effects in Single Layer MoS2 Probed by Broadband Two-dimensional Electronic Spectroscopy, in Conference on Lasers and Electro-Optics, OSA Technical Digest (Optical Society of America, 2019), paper FW3M.4.

C17. W. Cao, D. Hagan, D. J. Thomson, M. Nedeljkovic, C. G. Littlejohns, A. Knights, S. U. Alam, J. Wang, F. Gardes, W. Zhang, S. Liu, K. Li, M. S. Rouifed, G. Xin, W. Wang, H. Wang, G. T. Reed, and G. Z. Mashanovich, 20-Gb/s Silicon Optical Modulators for the 2 μm Wavelength Band, 2018 IEEE 15th International Conference on Group IV Photonics (GFP), Cancun, 2018, pp. 1-2.

C16. G Soavi, G Wang, H Rostami, D Purdie, D De Fazio, T Ma, B Luo, J Wang, AK Ott, D Yoon, S Bourelle, JE Muench, I Goykhman, S Dal Conte, M Celebrano, A Tomadin, M Polini, G Cerullo, AC Ferrari, “Graphene electrically tuneable third harmonic generation,” 2018 Conference on Lasers and Electro-Optic, FF2E. 2. (International, oral.)

C15. Z Wang, J Wang, I Glesk, and LR Chen, “Broadband wavelength conversion based on on-chip nonlinear optical loop mirror,” 2017 IEEE Photonics Conference, 713-714. (International, oral.)

C14. L. R. Chen, Z. Wang, J. Wang, R. Adams, and I. Glesk, “Recent advances in optical signal processing in silicon photonics,” Asia Communications and Photonics Conference, 10-13 November 2017, Guangzhou, China. (International, oral.)

C13. S. Chen, Y. Jung, S.U.Alam, J. Wang, R. Sidharthan, D. Ho, S. Jain, S. Yoo, and D. J. Richardson, “Ultra-wideband Operation of a Tunable Thulium Fibre Laser offering Tunability from1679-1992 nm,” European Conference on Optical Communication, 17-21 September 2017, Gothenburg. (International, oral.)

C12. J. Wang*, S. Liang, Y. Jung, Q. Kang, S. Alam, and D. J. Richardson, “Broadband Silica-Based Thulium Doped Fiber Amplifier Employing Dual-Wavelength Pumping,” Conference on Lasers and Electro-Optics, 5-10 June 2016, San Jose, CA. (International, oral.)

C11. A. Houfaneh, J. Wang, C. Tremblay*, and L. R. Chen, “Performance measurements of silicon photonic optical add-drop multiplexers using angled fiber couplers,” Asia Communications and Photonics Conference, 19-23 November 2015, Hong Kong. (International, oral.)

C10. R. Ashrafi, J. Wang*, I. Glesk, and L. R. Chen, “Silicon photonic subwavelength grating based integrated optical delay lines,” 12th International Conference on Group IV Photonics, 26-28 August 2015, Vancouver, BC. (International, poster.)

C9. J. Wang*, I. Glesk, and L. R. Chen, “Subwavelength grating filters in SOI,” 12th International Conference on Group IV Photonics, 26-28 August 2015, Vancouver, BC. (1st Prize in Best Student Paper Award.) (International, poster.)

C8. J. Wang*, R. Ashrafi, and L. R. Chen, “Integrated bandpass transmission filters based on Sagnac loops incorporating Bragg gratings in SOI,” 12th International Conference on Group IV Photonics, 26-28 August 2015, Vancouver, BC. (International, poster.)

C7. J. Wang*, R. Ashrafi, I. Glesk, and L. R. Chen, “Subwavelength grating devices in SOI,” 14th International Conference on Optical Communications and Networks, 3-5 July 2015, Nanjing, China. (International, oral.)

C6. J. Čtyroký*, P. Kwiecien, J. Wang, I. Richter, I. Glesk, and L. Chen, “Simulations of waveguide Bragg grating filters based on subwavelength grating waveguide,” Proc. SPIE 9516, Integrated Optics: Physics and Simulations II, pp. 95160M, 13 April 2015, Prague, Czech Republic. (International, oral.)

C5. A. Davidson*, I. Glesk, A. Buis, J. Wang, and L. Chen, “Recent advancement towards green optical networks,” XIX Polish-Slovak-Czech Optical Conference on Wave and Quantum Aspects of Contemporary Optics, pp. 944117-944117-12, 2014, 8-12 September 2014, Wojanow Palace, Poland. (International, oral.)

C4. L. R. Chen*, R. Adams, R. Ashrafi, J. Wang, M. Rezagholipour Dizaji, M. S. Hai, and O. Liboiron-Ladouceur, “Photonic integrated circuits for microwave photonics applications,” International Topical Meeting on Microwave Photonics/Asia-Pacific Microwave Photonics Conference, 20-23 October 2014, Sapporo, Japan. (International, invited oral.)

C3. J. Wang* and L. R. Chen, “Bandpass Bragg grating transmission filters and optical add-drop multiplexers on silicon-on-insulator,” IEEE Photonics Conference, 12-16 October 2014, San Diego, CA. (International, oral.)

C2. J. Wang*, J. Flueckiger, L. Chrostowski, and L. R. Chen, “Bandpass Bragg grating transmission filter in silicon-on-insulator,” 11th International Conference on Group IV Photonics, 27-29 August 2014, Paris, France. (International, poster.)

C1. J. Wang* and L.R. Chen, All-optical OOK-to-DPSK modulation format conversion using XPM in HNLF, 10th International Conference on Optical Communications and Networks (ICOCN 2011), pp. 1-2, 2011. (International, oral.)

IEEE Seinor Member

PhotoniX Synnergy青编委

Chinese Optics Letters青编委

江苏省通信学会光通信与线路专委会副主任委员

南京光通信与光电子技术学会副会长

江苏省SC人才

HW紫金学者

bevictor伟德官网优秀本科生导师

bevictor伟德官网优秀班主任标兵

中国电子元件协会科技进步一等奖

南山奖教金

国家优秀自费职工奖学金

SPIE光学和光子学教育奖学金

ICAIT Young Scientist Award

GFP Best Paper Award

本课题组主要从事集成电路科学与技术相关的交叉学科研究。热忱欢迎来自本校和外校的多学科博士后、博士生、研究生和本科生。今年招生方向为学硕：集成电路科学与技术，专硕：集成电路科学与工程。

欢迎不躺平，不内卷，不停止前行的同学报考。“千里马常有，而伯乐不常有”，曾获bevictor伟德官网优秀本科生导师、优秀班主任标兵称号，我们不仅注重科学研究的前沿性，原创性，同时更加关注员工研究能力的培养，以及未来职业发展的规划。鼓励本科生申请直博生，积极为员工提供公司实习和国外求学机会，包含剑桥大学、多伦多大学，麦吉尔大学等学校。培养员工获得国家奖学金、优秀本科生毕业设计、优秀硕士生毕业论文，高等数学竞赛、结构竞赛、光电竞赛、嵌入式竞赛等荣誉与奖项。

我许你一技之长，但不想你只有眼前，而失去梦想；我教你坦对社会，但不想你随波逐流，而失去自我！

硅基异质集成加工与测试平台

微纳系统国际创新中心

毕业生去向：

刘天远2021 西湖大学

缪庭2022 上海交通大学

房崇宝2023 中航光电

吴晓萱2024 摩尔芯光

陶梦雪2024 华工正源 （bevictor伟德官网优秀论文、微米纳米学会优秀论文）

勾庆瑞2024 高德红外

谢志翔2025 长江存储

杨乐乐2025 小米