1. Dual-Crossbar Configurated Bi2O2Se Device for Multiple Optoelectronic Applications,Laser & Photonics Reviews, 2024: 202301129,通讯作者
2. Broadband, Polarization-Sensitive and Self-Powered High-Performance Photodetection of Hetero-Integrated MoS2 on Lithium Niobate, Research, 2023, 6: 0199, 通讯作者
3. Van der Waals integrated LiNbO3/WS2 for High-Performance UV-Vis-NIR Photodetection, Laser & Photonics Reviews, 2023, 17(10): 2300286.,封面论文,通讯作者
4. Design of optical phased array with low-sidelobe beam steering in thin film lithium niobate, Optics & Laser Technology, 2024, 171: 110432,通讯作者
5. 新型光控砷化镓/侧边抛磨太赫兹光纤调制器, Laser & Optoelectronics Progress, 2023, 60(18): 1811003-1811003-9,封面论文,通讯作者
6. Electro-optic high-speed optical Beam shifting based on Lithium Niobate tapered waveguide, Optics Express, 30(9): 14530-14537(2022),通讯作者
7. SnSe-Coated Microfiber Resonator for All-Optical Modulation, Nanomaterials, 12(4): 694 (2022), 通讯作者
8. Non-Hermitian optical tunable system based on lithium niobate coupling resonator,IEEE Photonics Journal,14(5): 1-5. (2022), 通讯作者
9. Ultrasensitive temperature sensor and mode converter based on a modal interferometer in a two-mode fiber, Optics Express, 29(20): 32135-32148 (2021), 通讯作者
10. Broadband, High-sensitivity Graphene Photodetector Based on Ferroelectric Polarization of LiNbO3,Advanced Optical Materials, 9(16): 2100245(2021), 第一作者
11. Highly Efficient Second Harmonic Generation of Thin Film Lithium Niobate Nanograting near Bound States in the Continuum, Nanotechnology, 32(32): 325207 (2021), 通讯作者
12. Recent Progress of Second Harmonic Generation Based on Thin Film Lithium Niobate(邀请论文), Chinese Optics Letters, 19(6): 060012 (2021), 通讯作者
13. High-sensitivity fiber-optic humidity sensor based on microfiber overlaid with niobium disulfide, Journal of Materials Science, 55:16576–16587(2020),通讯作者
14. Broadband light amplitude tuning characteristics of SnSe2 coated microfiber, Journal of Lightwave Technology, 38(21): 6089-6096(2020), 第一作者
15. Resonance-enhanced all-optical modulation of WSe2-based micro-resonator. Nanophotonics, 9(8): 2387-2396(2020), 通讯作者
16. Broadband all-light-control with WS2 coated microfibers. Optics Express, 27(9), 12817-12831(2019), 通讯作者
17. Fano Resonance on Nanostructured Lithium Niobate for Highly Efficient and Tunable Second Harmonic Generation, Nanomaterials, 9(1): 69 (2019) , 通讯作者
18. Resonance-assisted light-control-light characteristics of SnS₂ on microfiber knot resonator with fast response, Photonics Research, 6(12): 1137-1143 (2018), 通讯作者
19. Highly sensitive all-optical control of light in WS₂ coated microfiber knot resonator, Optics Express, 26(21): 27650-27658 (2018), 通讯作者
20. Chirality induced asymmetric spin splitting of light beams reflected from an air-chiral interface, Optics express,26.6: 6593-6601 (2018),通讯作者
21. Tunable spin splitting of Laguerre–Gaussian beams in graphene metamaterials, Photonics Research, 5(6): 684-688 (2017), 通讯作者
22. Giant spin splitting induced by orbital angular momentum in an epsilon-near-zero metamaterial slab,Optics Letters,42(17): 3259-3262 (2017) , 通讯作者
23. All light-control-light properties of molybdenum diselenide (MoSe2)-coated-microfiber, Optics Express, 25(23): 28536-28546 (2017), 共第一作者兼通讯作者
24. Reduced graphene oxide wrapped on microfiber and its light-control-light characteristics, Optics Express, 25(5), 5415-5425 (2017), 通讯作者
25. Enhanced optical sensitivity of molybdenum diselenide (MoSe2) coated side polished fiber for humidity sensing,Optics Express, 25(9), 9823-9833 (2017), 通讯作者
26. The upper limit of the in-plane spin splitting of Gaussian beam reflected from a glass-air interface, Scientific Reports, 7, 1150 (2017), 通讯作者
27. Tungsten disulfide (WS2) based all-fiber-optic humidity sensor, Optics Express, 24(8), 8956-8966 (2016), 通讯作者
28. Tungsten disulfide wrapped on micro fiber for enhanced humidity sensing, Optical Materials Express, 7(5), 1686-1696 (2017), 第一作者兼通讯作者
29. Micro fiber with cladding of titanium dioxide (TiO2) nanoparticles and its violet light sensing,Optical Materials Express, 7(1), 264-272 (2017),通讯作者
30. High-efficiency, broad-bandwidth metal/multilayer-dielectric gratings,Optics Letters, 2014, 39(1):170-173,第一作者
31. Broadband Trapeziform Multilayer Dielectric Grating for Femtosecond Pulse Compressor: Design Fabrication and Analysis, Laser Physics, 2013, 23(11): 115301,第一作者
32. Near-field Optical Properties of Wide Bandwidth Metal Multi Layer Dielectric Gratings for Pulse Compressor,Applied Physics B, 2014,114(4):557-565,第一作者
33. Optimization design of polarizing beam splitter based on metal-multilayer dielectric reflecting grating,Optics Communications, 287, 15, 25–30 (2013), 第一作者
34. Fabrication of rGO-GO long period fiber grating using laser reduction method, IEEEPhotonics Journal, 9(6): 1-9 (2017), 通讯作者
35. Side polished fiber coated with molybdenum diselenide (MoSe2) for humidity sensing, Optical Sensors. Optical Society of America, SeW1E. 2. A3 (2017), 通讯作者
36. Micro Fiber Coated with Tungsten disulfide and Its Humidity Sensing, Photonics in Switching. Optical Society of America, JTu4A. 14 (2017), 第一作者
37. All fiber-optic humidity sensor based on tungsten disulfide (WS2), Asia-Pacific Optical Sensors Conference, Optical Society of America, Th4A. 29 (2016), 通讯作者
38. An effective design method for trapezoidal pulse compression metal multilayer dielectric gratings, 2015 International Conference on Numerical Simulation of Optoelectronic Devices (NUSOD). IEEE, 2015: 165-166, 第一作者
39. Near-field optical properties of multilayer ridge metal/multilayer dielectric gratings for pulse compressor, Pacific Rim Laser Damage. International Society for Optics and Photonics, 2015: 95321R-95321R-6, 第一作者
40. 1053纳米波段的金属介质膜反射式偏振分束光栅,(中国知识产权局),第一发明人,授权号:ZL201110275141.0
41. 一种基于二硫化钨的微纳光纤湿度传感器及其制备方法,(中国知识产权局), 授权号:ZL201710136299.7 第一发明人,已授权
42. 基于金属多层介质膜的偏振选择反射式光栅(中国知识产权局),授权号ZL201711252001.5,第一发明人,已授权
43. 基于谐振结构的太赫兹光纤滤波器(中国知识产权局),申请号20221101576.0,第一发明人,已受理
44. 一种利用SPR增强非线性效应的光学相位检测方法与装置,申请号202211360803.9,第一发明人,已受理
45. 一种光控太赫兹光纤调制器及其光振幅调制方法,公开号CN113721376A,第一发明人,已公开
46. 一种基于二硫化钨的光纤湿度传感器及其制备方法,(中国知识产权局),授权号ZL201610226031.8,第二发明人,已授权
47. 一种用阵列电极进行光束偏转的铌酸锂波导及制作方法,(中国知识产权局),授权号ZL201710134608.7
48. 基于连续界面全介质薄膜的随机偏振合束光栅,(中国知识产权局),申请号CN202210611634.5