主持国家和省部级项目

1. 国家自然科学基金面上项目：太赫兹磁光非互易手性构筑机理与调控器件研究----2024-01-01到2027-12-31

2.  国家自然科学基金面上项目：太赫兹液晶相移增强与高效调控机理及器件研究----2020-01-01到2023-12-31

3. 国家自然科学基金青年项目：太赫兹磁光超表面非互易传输和隔离器件的研究----2016-01-01到2018-12-31

4. 天津市自然科学基金面上项目：太赫兹非对称光场复用主动调控器件----2024-10-01到2027-09-30

6. 天津市自然科学基金面上项目：基于人工双折射微结构的太赫兹宽带可调谐相移与偏振控制器件研究----2019.4-01到2022-3-31

7. 天津市自然科学基金青年项目：基于磁光微结构的太赫兹隔离器与传感器研究----2015-04-01到2018-03-31

8. 承担其他中央部委国家级项目2项

近5年通讯和第一作者论文：
[1] Yiming Wang，FeiFan*，HuijunZhao，Yunyun Ji，Jing Liu, Shengjiang Chang. Terahertz activemulti-channel vortices with parity symmetry breaking and near/far fieldmultiplexing based on a dielectric-liquid crystal-plasmonic metadevice, Opto-Electronic Advances, 2025, 3. 中科院一区

[2] Peng Shen, Yunyun Ji*, Xinmin Yue*, Yifeng Li, Mengfan Han, Yan Ma, MengMeng, Fei Fan*, Shengjiang Chang, Ultrasensitive terahertz microfluidic biosensorintegrated with tetrahedral DNA nanostructure for specific detection of livecancer cells, Sensors and Actuators B: Chemical, 2025, 428, 137252. 中科院一区

[3] L. Ma, F. Fan*, J. Feng, P. Shen, H. Yin, Y. Ji, X. Wang, S. Chang*, Lag‐Compensated Hyperfine Terahertz Dual‐Comb Interferometer beyond Intrinsic Resolution andSensitivity. Laser Photonics Rev 2025, 2401784. 中科院一区

[4] Yi-Ming Wang, Fei Fan*, Hui-JunZhao, Jing Liu, Yun-Yun Ji, Jie-Rong Cheng, Sheng-Jiang Chang. Active broadbandunidirectional focusing of terahertz surface plasmons based on aliquid-crystal-integrated on-chip metadevice. Photonics Research, 2024,12(10):2148 中科院一区

[5] LiangMa, Fei Fan*, Weinan Shi, Yunyun Ji, Xianghui Wang, Shengjiang Chang*, Retime-mappingterahertz vernier biosensor for boosting sensitivity based on self-referencewaveguide interferometers, FundamentalResearch 2025, 5, 592-600.

[6] J. Feng, X. Wang*, M. Zeng, L.Fan, L. Ma, Y. Ji, F. Fan*, S. Chang, Dual-Band Quasi-BoundStates in the Continuum with Opposite Circular Dichroism Supported by SingleMetallic Bilayer Twisted Metasurface. Adv. Optical Mater. 2025, 2402856.

[7] Y. Ji, X. Jiang, F. Fan*, H.Zhao, X. Dong, J. Cheng, S. Chang, Flexible Liquid Crystal Cascade DielectricMetasurface for Dynamically Controlling Terahertz Beam Deflection. Adv. Optical Mater. 2025, 13, 2402113

[8] Pengxuan Li, Fei Fan*, Hao Wang, Dan Zhao, Jierong Cheng,Shengjiang Chang, Three-channel terahertz beam steering based on polarizationmultiplexed metasurfaces, Appl. Phys.Lett. 126, 011702 (2025)

[9] H. Zhao, F. Fan*, Y.Wang, J. Liu, Y. Ji, J. Cheng, S. Chang, Vortex‐Vector BeamConversion and Chiral Field Manipulation based on Terahertz Liquid CrystalCascaded Metadevice. Laser Photonics Rev 2024, 18(12),2400442.  中科院一区

[10] D. Zhao, F. Fan*, Q. Xue, H. Wang, Y. Ji, Q. Yang, Q. Wen**,S. Chang, Terahertz Magnetic Moiré Grating for Enhanced Chirality Manipulationand Nonreciprocal Spin Isolation. Adv.Funct. Mater. 2024, 34(42), 2404881.  中科院一区

[11] Tan, Z., Fan, F. *,Zhao, D., Wang, H., Li, S., Guan, S., Cheng, J.-R., Ji, Y., Chang, S.,Nonreciprocal Terahertz Beam Steering Manipulated by Magnetic Weyl SemimetalMetasurface Based on Universal Chirality- Wavevector- Magnetic Field Relation. Laser Photonics Rev 2024, 18(3), 2301008. 中科院一区

[12] L. Ma, Q. Mao, F. Fan*,W. Shi and S. Chang, "Polarization Control of Terahertz Waves Based onMetallic Parallel-Plate Waveguides," Journal of Lightwave Technology,42(1), 251-257, (2024) 中科院一区

[13] H. Wang, F. Fan*, Z. Tan,D. Zhao, Y. Ji, J. Cheng, S. Chang, Terahertz Nonreciprocal Photonic SpinManipulation with Light‐Magneto‐JointModulation. Adv. Optical Mater. 2024, 12(2), 2301330.

[14] Liang Ma, Fei Fan*, Weinan Shi,Yunyun Ji, Xianghui Wang, Shengjiang Chang**, Terahertz on-chip sensor based onMach-Zehnder waveguide interferometer for selective recognition of reducingdrug, Sensors and Actuators A: Physical,370, 115282 (2024)

[15] Weinan Shi, Fei Fan*, Shanshan Li,Liang Ma, Yi-Ming Wang, Xianghui Wang**, Shengjiang Chang, "EnhancedTerahertz Specific Sensing for Alzheimer’s Marker by Metasurface-Analyte UnionModification on Microfluidic Sensor," IEEE Sensors Journal, 24(6),7690-7699 (2024)

[16] Feng, Jixin, Wang, Xianghui, Shi, Weinan,Ma, Liang, Ji, Yunyun, Fan, Fei and Chang, Shengjiang. "Asymmetricdumbbell dimers simultaneously supporting quasi-bound states in continuum andanapole modes for terahertz biosensing" Nanophotonics, 2024. 13(21)

[17] Shi-Tong Xu*, Hui-Fang Zhang, LongqingCong*, Zhanqiang Xue, Dan Lu, Ying-Hua Wang, Xiaofei Hu, Lanju Liang, YunyunJi, Fei Fan*, Sheng-Jiang Chang,Dispersion-Compensated Terahertz Ultra-Broadband Quarter and Half Wave Platesin a Dielectric-Metal Hybrid Metadevice,Adv. Optical Mater.,12(13) 2302696 (2024)

[18] Dan Zhao, Fei Fan*,Jiayue Liu, Zhiyu Tan, Hao Wang, Qinghui Yang, Qiye Wen, and Shengjiang Chang,"Terahertz magneto-optical metadevice for active spin-selective beamsteering and energy distribution with nonreciprocal isolation," Optica10, 1295-1301 (2023) 中科院一

[19] Z. Tan, F. Fan*, S. Guan,H. Wang, J. Cheng, Y. Ji, S. Chang, Terahertz Nonreciprocal Beam Deflection andIsolating Based on Magneto-Optical Anisotropic Metadevice. Adv. OpticalMater., 11, 2202938 (2023).

[20] D. Zhao, F. Fan*, Z. Tan,H. Wang, S. Chang, Tunable On-Chip Terahertz Isolator Based on NonreciprocalTransverse Edge Spin State of Asymmetric Magneto-Plasmonic Waveguide. LaserPhotonics Rev, 17, 2200509 (2023). 中科院一区

[21] Z. Tan, F. Fan*, S. Guan,H. Wang, D. Zhao, Y. Ji, S. Chang**, TerahertzSpin-Conjugate Symmetry Breaking for Nonreciprocal Chirality and One-WayTransmission Based on Magneto‐Optical Moiré Metasurface. Adv. Science, 10, 2204916 (2023). 中科院一区

[22] Jiayue Liu, Fei Fan*,Zhiyu Tan, Huijun Zhao, Jierong Cheng, Shengjiang Chang; Terahertz cascadedmetasurfaces for both spin-symmetric and asymmetric beam diffractions withactive power distribution. APL Photonics, 2023; 8 (9): 096112. 中科院一区

[23] Jiayue Liu, Fei Fan*, Zhiyu Tan, Huijun Zhao, Jierong Cheng,Shengjiang Chang, Active Terahertz-Beam Deflection in a Double-SidedAll-Dielectric Metadevice Modulated by both Polarization Rotation and OpticalPumping, Phys. Rev. Applied 19,054086 (2023).

[24] Jiayue Liu, Tianrui Zhang, Zhiyu Tan,Jierong Cheng, Shengjiang Chang, Fei Fan*, "Chiralenantiomer recognition of amino acids enhanced by terahertz spin beamseparation based on a Pancharatnam–Berry metasurface," Opt. Lett. 48,440-443 (2023).

[25] Wei-Nan Shi, Yi-Ming Wang, Fei Fan*, Jia-Yue Liu,Jie-Rong Cheng, Xiang-Hui Wang**, and Sheng-Jiang Chang, THzenantiomers of drugs recognized by the polarization enhancement of goldnanoparticles on an asymmetric metasurface, Nanoscale, 15, 14146-14154 (2023)

[26] Wei-Nan Shi, Fei Fan*, Tian-RuiZhang, Jia-Yue Liu, Xiang-Hui Wang, and ShengJiang Chang, "Terahertz phaseshift sensing and identification of a chiral amino acid based on aprotein-modified metasurface through the isoelectric point and peptidebonding," Biomed. Opt. Express 14, 1096-1106 (2023)

[27] Weinan Shi, Fei Fan*, Liang Ma,Tian-Rui Zhang, Jia-Yue Liu, Jie-Rong Cheng, Xianghui Wang**, Shengjiang Chang,“Terahertz chiral enantiomers recognition via chiral selective bio-molecularfilm on anapole metasurface sensor in water environment,” Optics & LaserTechnology, 162, 109274 (2023)

[28] Liang Ma, Weinan Shi, Fei Fan*, Ziyang Zhang, Tianrui Zhang, Jiayue Liu, Xianghui Wang,Shengjiang Chang*. Terahertz polarization sensing, chirality enhancement, andspecific binding based on metasurface sensors for biochemical detection: areview [Invited]. Chinese Optics Letters,2023, 21(11):110003    

[29] Yunyun Ji, Xinhao Jiang, Fei Fan*,Huijun Zhao, Jierong Cheng, Xianghui Wang, and Shengjiang Chang, "Activeterahertz beam deflection based on a phase gradient metasurface with liquidcrystal-enhanced cavity mode conversion," Opt. Express 31,1269-1281 (2023).

[30] Zhao, Huijun, Liu, Jiayue, Jiang, Songlin,Jiang, Xinhao, Cheng, Jierong, Ji, Yunyun, Chang, Shengjiang and Fan, Fei."Broadband large-angle beam scanning with dynamic spin energy distributionbased on liquid crystal cascaded bilayer metasurface" Nanophotonics, 12(20), 2023, 3945-3954.

[31] Dan Zhao, Fei Fan*, Tengfei Li, Zhiyu Tan, Jierong Cheng,Shengjiang Chang, “Terahertz magneto-optical isolator based on graphene-siliconwaveguide”, SCIENCE CHINA InformationSciences, 65, (6): 169401 (2022).

[32] Dan Zhao, Zhiyu Tan, Huijun Zhao, FeiFan*, and Shengjiang Chang, "Active terahertz beamdeflection and nonreciprocal spin chirality selection based on magneto-opticalP-B metasurface with stacked-graphene layers," Opt. Lett. 47,818-821 (2022).

[33] Hui-Jun Zhao, Fei Fan*, Yun-Yun Ji,Song-Lin Jiang, Zhi-Yu Tan, Sheng-Jiang Chang. “Active terahertz beam manipulation with photonic spinconversion based on a liquid crystal Pancharatnam–Berry metadevice.” Photonics Research, 2022, 10(11):2658-2666中科院一区

[34] Hui-Jun Zhao, Fei Fan*, Tian-RuiZhang, Yun-Yun Ji, Sheng-Jiang Chang. “Dynamic terahertz anisotropy and chiralityenhancement in liquid-crystal anisotropic dielectric metasurfaces.” PhotonicsResearch, 10(4):1097-1106 (2022).  中科院一区

[35] Weinan Shi, Fei Fan*, Shanshan Li,Ziyang Zhang, Hongliang Liu, Xianghui Wang*, Shengjiang Chang, Terahertzimmunosensing assisted by functionalized Au NPs based on all-dielectricmetasurface, Sensors and Actuators B: Chemical, 362, 131777 (2022). 中科院一区

[36] Yunyun Ji, Fei Fan*,Ziyang Zhang, Jierong Cheng, Shengjiang Chang**, “Active terahertz liquid crystal device with carbonnanotube film as both alignment layer and transparent electrodes,” Carbon,190,376-383 (2022).

[37] Ziyang Zhang, FeiFan*, Weinan Shi, Tianrui Zhang, and Shengjiang Chang**, “Terahertz circular polarization sensing for proteindenaturation based on a twisted dual-layer metasurface,” Biomed. Opt. Express 13, 209-221 (2022).

[38] Changzhi Zhong, FeiFan*, Ziyang Zhang, Hongliang Liu, Shengjiang Chang, “Terahertz polarization sensing based onthe saccharide-PVA mixture film coated on the flexible metasurface sensor,” Optics and Lasers in Engineering, 149, 106798(2022).

[39] Z. Zhang, T. Zhang, F. Fan*, Y. Ji, and S. Chang**,“Terahertz polarization sensing of bovine serum albumin proteolysis on curvedflexible metasurface,” Sensors andActuators A: Physical 338, 113499 (2022).

[40] Tianrui Zhang, Jiayue Liu, Weinan Shi, FeiFan*, Shengjiang Chang**, “Enhancing terahertz circular dichroismspectrum of amino acid chiral enantiomers by all-dielectric metasurface,” Sensorsand Actuators A: Physical, 348, 114001 (2022).

[41] Fei Fan,Dan Zhao, Zhiyu Tan, Yunyun Ji, Jierong Cheng, Shengjiang Chang*, Magnetically induced terahertzbirefringence and chirality manipulation in transverse magnetized metasurface, Adv. Opt. Mater, 9, 2101097 (2021).

[42] Tan Zhiyu, FanFei*, Zhao Dan, Li Shanshan, Wang Xianghui, Chang Shengjiang. "Linear-polarized terahertz isolatorby breaking the gyro-mirror symmetry in cascaded magneto-opticalmetagrating" Nanophotonics, 10,16, 4141-4148 (2021)  

[43] Zhiyu Tan, Fei Fan*, Dan Zhao, Yunyun Ji, Jierong Cheng, ShengjiangChang, High-efficiency terahertz nonreciprocal one-way transmission and activeasymmetric chiral manipulation based on magneto-plasmon/dielectric metasurface,Adv. Opt. Mater. 9, 2002216 (2021).

[44] Zhi-Yu Tan, Fei Fan*, Teng-Fei Li, and Sheng-Jiang Chang,"Magnetically active terahertz wavefront control and superchiral field ina magneto-optical Pancharatnam-Berry metasurface, Opt. Express 29, 2037-2048 (2021).

[45] Ziyang Zhang, Changzhi Zhong, Fei Fan*, Guohua Liu,Shengjiang Chang**, Terahertz polarization and chirality sensing foramino acid solution based on chiral metasurface sensor, Sensors and Actuators B: Chemical, 330, 129315 (2021). 中科院一区

[46] Ziyang Zhang, Guang Yang, Fei Fan*,Changzhi Zhong, Ying Yuan, Xiaodong Zhang**, Shengjiang Chang, Terahertzcircular dichroism sensing of living cancer cells based on microstructuresensor, Analytica Chimica Acta,1180,338871 (2021). 中科院一区

[47] Y. Ji, F.Fan*, X. Zhang, J. Cheng and S. Chang, "Active TerahertzAnisotropy and Dispersion Engineering Based on Dual-Frequency Liquid Crystaland Dielectric Metasurface," Journalof Lightwave Technology, 38(15),4030-4036 (2020) 中科院一区

[48] Xin Zhang, FeiFan*, Yun-Yun Ji, and Sheng-Jiang Chang,"Temperature-dependent chirality of cholesteric liquid crystal forterahertz waves," Opt. Lett.45, 4988-4991 (2020)

[49] Yun-Yun Ji, Fei Fan*, Xin Zhang, Jie-Rong Cheng, and Sheng-JiangChang, "Terahertz birefringence anisotropy and relaxation effects inpolymer-dispersed liquid crystal doped with gold nanoparticles," Opt. Express 28, 17253-17265 (2020)

[50] T.-F. Li, Y.-L. Li, Z.-Y. Zhang, Q.-H.Yang, F. Fan*, Q.-Y. Wen,and S.-J. Chang, "Terahertz faraday rotation of magneto-optical filmsenhanced by helical metasurface," AppliedPhysics Letters 116, 251102 (2020).  

[51] Z. Tan, F. Fan* and S. Chang, "Active BroadbandManipulation of Terahertz Photonic Spin Based on Gyrotropic Pancharatnam-BerryMetasurface," IEEE Journal ofSelected Topics in Quantum Electronics, 26 (6), 4700108(2020). 二区      

[52] Tengfei Li, Fei Fan*, Yunyun Ji, Zhiyu Tan, Qianyi Mu, andShengjiang Chang, "Terahertz tunable filter and modulator based on magnetoplasmon in transverse magnetized InSb," Opt. Lett. 45, 1-4 (2020) 

[53] Lei Liu, Tengfei Li, Zixian Liu, Fei Fan*, Hongfeng Yuan,Ziyang Zhang, Shengjiang Chang*, and Xiaodong Zhang*,"Terahertz polarization sensing based on metasurface microsensor displayanti-proliferation of tumor cells with aspirin," Biomed. Opt. Express 11(5), 2416-2430 (2020)

《太赫兹微结构功能器件》，常胜江、范飞，2021/01，华东理工大学出版社

《太赫兹超表面的理论基础与应用》常胜江、程洁嵘、范飞，2024/04,电子工业出版社   国家出版基金资助项目

授权国家发明专利12项

1. 2024年天津市自然科学二等奖“太赫兹手性调控机理与传感表征技术”排名第1

2. 2021年天津市自然科学二等奖“太赫兹微纳结构材料与功能器件”排名第2

3.  2024年天津市首批青年科技人才

4. 2022年天津市教学成果特等奖“基于5C理念的电子信息类专业创新实践能力培养模式改革与实践”排名第10

5.  2022年天津市教学成果一等奖“爱国主义为主线的研究生全面发展素质培养形式研究与实践”排名第5

6.  2021年度中国生物物理学会太赫兹生物物理分会“优秀青年科技工作者”

7. 2020年度天津市创新人才推进计划青年科技优秀人才

8. 2017年度天津市青年人才托举工程

9. 2015年中国仪器仪表学会“金国藩青年学子奖”

10. 2013年中国光学学会“王大珩光学奖（学生奖）”

本科生课程：大学物理学（一），电动力学，基础光学实验，光学与社会发展

研究生课程：微纳光子技术，高等电动力学

中国青年科技工作者协会信息与电子专业委员会委员、中国生物物理学会太赫兹生物物理分会委员、中国电子学会青年科学家太赫兹专委会委员、天津市激光技术学会理事、天津市光学学会理事。