Curriculum Vitae

⸻⸻⸻⸻⸻⸻⸻

Yiping Wang                   Distinguished Professor, Shenzhen University

Dr. Yiping Wang, Distinguished Professor, Director of the Guangdong & Hong Kong Joint Research Center for Optical Fiber Sensors, School of Physics and Optoelectronic Engineering, Shenzhen University, China. He is also the director of the Key Laboratory of Optoelectronic Devices and Systems (Ministry of Education), China. He received his PhD in Optical Engineering from Chongqing University in 2003, and then was employed by Shanghai Jiao Tong University (Postdoctoral Fellow), Hong Kong Polytechnic University (Postdoctoral Fellow), Leibniz Institute of Photonic Technology (Humboldt Fellow, Germany) and University of Southampton (Marie Curie Fellow, UK). His research focuses on optical fiber sensing and applications. In 2012, he became a distinguished professor of Shenzhen University, and established a fiber-optic sensing innovation group and the Guangdong & Hong Kong Joint Research Center for Optical Fiber Sensors. There are 102 research group members, comprising 20 full-time staff (including 6 professors), 16 postdoctoral fellows, 18 doctoral students and 48 master’s students.

Dr. Yiping Wang’s main achievements focus on in-fiber micro/nano-structured devices for sensing applications, such as long-period fiber grating sensors, fiber Bragg grating sensors, and optical fiber microcavity sensors. He has won the National Excellent Doctoral Dissertation Award, First Prize of Natural Science Award of the Ministry of Education, First Prize of the Shenzhen Natural Science Award, First Prize of the Sichuan Science and Technology Progress Award, EU Marie Curie International Incoming Fellowship, and German Humboldt Research Fellowship. He has led more than 30 scientific research projects with a total funding of > 85 million yuan (~13 million USD). He has published 484 papers (more than 8,500 citations, h-index: 47) including 16 papers with more than 100 SCI citations each, and been granted 82 invention patents. He was recognized as one of the Most Cited Chinese Researchers and the World's Top 2% Scientists Ranked for Career-long Scientific Impact. He is an Optica Fellow, an IEEE senior member, a vice chairman of the Guangdong Optical Society, China; an editorial board member of four journals including Applied Optics and Photonic Sensors; and a member of the China Fiber Optics and Integrated Optics Committee.

Address: Room 316, Optoelectronics Building, Yuehai Campus, Shenzhen University, Shenzhen, China

Email:ypwang@szu.edu.cn              Web: https://cofs.szu.edu.cn

Scopus ID:57204856923                        ID:https://orcid.org/0000-0002-7730-8906

1.Education

[1] 2000-2003, Chongqing University, China, Optical Engineering, PhD degree (National Excellent Doctoral Dissertation Award).

[2] 1998-2000, Chongqing University, China, Precision Instruments and Machinery, Master’s degree.

[3] 1991-1995, Xi’an Industrial University, China, Precision Instruments, Bachelor’s degree.

2.Employment

[1] 2012-present, Distinguished Professor, Director of Guangdong & Hong Kong Joint Research Center for Optical Fiber Sensors, School of Physics and Optoelectronic Engineering, Shenzhen University, China. He is also the Director of the Key Laboratory of Optoelectronic Devices and Systems (Ministry of Education), China (160 full-time staff including 41 professors).

[2] 2009-2011, Marie Curie Fellow, Optoelectronics Research Centre, University of Southampton, UK.

[3] 2007-2009, Humboldt Fellow, Leibniz Institute of Photonic Technology, Germany.

[4] 2005-2007, Postdoctoral Fellow, Department of Electrical Engineering, Hong Kong Polytechnic University, Hong Kong.

[5] 2003-2005, Postdoctoral Fellow, Department of Electronic Engineering, Shanghai Jiao Tong University, China.

[6] 1995-1998, Engineer, Quality Control Department, Chongqing Huaguang Instrument Factory, China.

3.Fellowships and Recognition

[1] German Humboldt Research Fellowship, 2007.

[2] EU Marie Curie International Incoming Fellowship, 2009.

[3] China National Science Fund for Distinguished Young Scholars, 2015.

[4] China National Young and Middle-aged Scientific and Technological Innovation Leaders, 2016.

[5] Most Cited Chinese Researchers (Elsevier), 2019, 2020, 2021.

[6] World's Top 2% Scientists Ranked for Career-long Scientific Impact (Stanford University), 2019, 2020, 2021.

4.Research Awards

[1] First prize of Natural Science Award of the Ministry of Education: “Research on some basic key issues of optical fiber sensing technology”, China, 2009.

[2] First prize of Guangdong Optical Science and Technology Award: “Enhancement mechanism and method of optical fiber mechanical and thermal sensing”, China, 2022.

[3] First prize of Sichuan Science and Technology Progress Award, the awarded project: Research on the sensing mechanism and method of optical fiber waveguide microstructure, China, 2013.

[4] First prize of Shenzhen Natural Science Award: “Preparation method and sensing mechanism of optical fiber microstructure devices”, China, 2017.

[5] Second prize of Chongqing Technology Invention Award, the awarded project: Production and application of novel long-period fiber grating devices, China, 2004.

[6] National Excellent Doctoral Dissertation Award, the only thesis awarded in optical engineering: “Research on the characteristics of novel long-period fiber gratings”, China, 2006.

5.Leadership and Professional Roles

[1] Optica Fellow.

[2] IEEE Senior Member.

[3] Director, Key Laboratory of Optoelectronic Devices and Systems (Ministry of Education), China (160 full-time staff including 41 professors).

[4] Director, Guangdong & Hong Kong Joint Research Center for Optical Fiber Sensors, China.

[5] Vice President of Guangdong Optical Society, China.

[6] Editorial Board Member of Applied Optics.

[7] Editorial Board Member of Photonic Sensors.

[8] Editorial Board Member of Advances in Laser and Optoelectronics Research.

[9] Editorial Board Member of Science & Technology Review.

[10] Member of China Fiber Optics and Integrated Optics Professional Committee.

6.Representative Research Grants

[1]  National Key R&D Plan of China, Low Insertion Loss All-Fiber High-Speed Electro-Optical Modulator (SQ2021YFE010025), Yiping Wang, PI, 2022-2025

[2]  Ministry of Science and Technology of China Major Project, Research on Multi parameter New Sensing Materials (N103010514), Yiping Wang, 2022-2023.

[3]  National Natural Science Foundation of China Union Key Project, Fiber Bragg grating based sensing measurement theory and method for landslide geological disaster (U22A2088), Yiping Wang, PI, 2023-2026.

[4]  National Natural Science Foundation of China Key Project, Key Technologies and Devices of Photonic Bandgap Fibers for Microfluidic Sensing (61635007), Yiping Wang, PI, 2017-2021.

[5]  National Natural Science Foundation of China for Distinguished Young Scholars, Optical Fiber Sensing Technology (61425007), Yiping Wang, PI, 2015-2019.

[6]  National Natural Science Foundation of China General Project, Air Core Photonic Band Gap Fiber Grating (61377090), Yiping Wang, PI, 2014-2017.

[7]  National Natural Science Foundation of China General Project, Reversible Conversion and Application of Photonic Crystal Fiber Light Guidance Mechanism (11174064), Yiping Wang, PI, 2012-2015.

[8]  National Natural Science Foundation of China Youth Project, Research on polarization-independent fast tunable electro-optic polymer waveguide gratings (60507013), Wang Yiping, 2006-2008.

[9]  Ministry of Education Hong Kong and Mainland Universities Teachers and Students Exchange Program, Multidisciplinary Cooperative Research on Optical Sensing Methods, Technologies and Applications, Yiping Wang, PI, 2015-2016.

[10]Guangdong-Shenzhen Joint Fund Key Project, Research on the Mechanism of High-Resolution Tactile Perception of Robots Based on Highly Flexible Smart Materials (2019B1515120042), Yiping Wang, PI, 2020-2023.

[11]Guangdong International Science and Technology Cooperation Project, Gas and Biochemical Sensing Technology Based on Air Core Photonic Crystal Fiber (2019A050510047), Yiping Wang, PI, 2019-2022.

[12]Guangdong & Hong Kong Collaborative Innovation Platform Establishment Project, Guangdong & Hong Kong Joint Research Center for Optical Fiber Sensors (2014B050504010), Yiping Wang, PI, 2015-2017.

[13]Guangdong Science and Technology Department Major Project, Core Device of Optical Fiber Sensing for Internet of Things: Large-scale Integration Technology and Industrialized Application of Fiber Bragg Grating (2015B010105007), Yiping Wang, PI, 2015-2018.

[14]Shenzhen Strategic Emerging Industry Development Project, Shenzhen Optical Materials Femtosecond Laser Preparation Technology Engineering Laboratory, Yiping Wang, PI, 2017-2019.

[15]Shenzhen Basic Research Key Project, Research on All-Fiber Steering While Drilling Control Technology for Complex Fractured Oil Reservoirs (JCYJ20200109114201731), Yiping Wang, PI, 2020-2023.

[16]Shenzhen Basic Research Key Project, Research on high temperature and high pressure sensor for aero-engine (JCYJ20170412105604705), Yiping Wang, PI, 2017-2020.

[17]Shenzhen Basic Research Key Project, Research on Minimally Invasive Intracranial Pressure Optical Fiber Real-time Monitoring Technology (JCYJ20160427104925452), Yiping Wang, PI, 2017-2019.

[18]Shenzhen Key Laboratory Establishment Project, Shenzhen Key Laboratory of Internet of Things Photonic Devices and Sensing Systems (ZDSYS20140430164957664), Yiping Wang, PI, 2014-2016.

[19]Shenzhen Science and Technology Program International Cooperation Project, Ultra-Broadband Wavelength Tunable Fiber Laser (GJHZ20150313093755757), Shenzhen University and University of New South Wales, Australia, Yiping Wang, PI, 2015-2017.

[20]Shenzhen Overseas Peacock Project, Liquid-filled Photonic Crystal Fibers and Sensing and Communication Applications (KQCX20120815161444632), Yiping Wang, PI, 2013-2015.

7.Representative Patents

[1]  Zhiyong Bai, Yan Zhang, Yiping Wang, Cailing Fu, Shen Liu, Method for manufacturing polarization-independent orbital angular momentum modulator, United States Patent, Shenzhen University, US11536895, application date: 2000.05.29, grant date: 2022.12.27

[2]  Changrui Liao, Yiping Wang, Chi Li, Lei Xu, Optical fiber device having polymer micronano structure integrated in optical fiber and preparation method theory, United States Patent, Shenzhen University, US11163110B2, application date: 2019,11,04, grant date: 2021.11.02.

[3]  Changrui Liao, Yiping Wang, Chupao Lin, Ying Wang, Jun He, Whispering gallery mode resonator and manufacturing method thereof, United States Patent, Shenzhen University, US11092747B2, application date: 2017.08.16, grant date: 2021.08.17.

[4]  Changrui Liao, Yiping Wang, Chupao Lin, Yunfang Zhang, Hybrid fiber coupler and manufacturing method thereof, United States Patent, Shenzhen University, US 11054577B1, application date: 2017.10.31, grant date: 2021.07.06.

[5]  Dongning Wang, Yiping Wang, Wei Jin. Method of manufacturing CO₂ laser grooved long period fiber gratings, US7664351B2, Hong Kong Polytechnic University, United States Patent, 2010-02-16.

[6]  Yiping Wang, Xizhen Xu, Ying Wang, Changrui Liao, A Humidity Test Chamber for Small Optical Fiber Devices, Chinese Invention Patent, Shenzhen University, ZL201510813085.X, Application Date: 2015.11.19, grant date: 2018.04.13.

[7]  Yiping Wang, Jiangtao Zhou, Changrui Liao, A multi-core optical fiber splitter and its manufacturing method, Chinese invention patent, Shenzhen University, ZL201510222630.8, application date: 2015.05.05, grant date: 2018.01.05.

[8]  Yiping Wang, Jing Zhao, Changrui Liao, Side-polished optical fiber and its preparation method and sensor, Chinese invention patent, Shenzhen University, ZL201510098153.9, application date: 2015.03.05, grant date: 2017.07.07.

[9]  Yiping Wang, Xiaoyong Zhong, Changrui Liao, Shen Liu, Expanded Long Period Fiber Grating Based on Photonic Crystal Fiber and Its Fabrication Method, Chinese Invention Patent, Shenzhen University, ZL201440473103.8, Application Date: 2014.04.25, grant date: 2017.02 .01.

[10] Yiping Wang, Shen Liu, Changrui Liao, Fabrication method and fabrication device of FP interferometer with adjustable FP cavity, Chinese invention patent, Shenzhen University, ZL201410127074.1, application date: 2014.03.31, grant date: 2016.10.05.

[11] Yiping Wang, Xizhen Xu, Changrui Liao, Guanjun Wang, A kind of optical fiber growth zinc oxide nanowire and its preparation method and loading mold, Chinese invention patent, Shenzhen University, ZL201510376577.7, application date: 2015.06.30, grant date: 2016.09.21.

[12] Yiping Wang, Changrui Liao, Shen Liu, Manufacturing method of pressure sensor based on optical fiber FP interferometer, Chinese invention patent, Shenzhen University, ZL201410173102.3, application date: 2014.04.25, grant date: 2016.03.02.

[13] Yiping Wang, Jianping Chen, Xinwan Li, Simultaneous measurement of multiple optical parameters of planar waveguides, ZL 200410084314.0, Chinese Invention Patent, Shanghai Jiaotong University, grant date: 2007.05.09.

[14] Yiping Wang, Jianping Chen, Yunjiang Rao, Bending sensor for simultaneous measurement of bending curvature and bending direction, ZL 200510024426.1, Chinese invention patent, Shanghai Jiaotong University, grant date: 2007.01.24.

[15] Yiping Wang, Jianping Chen, Xinwan Li, Simultaneous measurement of refractive index and thickness of polymer films with a precision reflectometer, ZL200410084315.5, Shanghai Jiaotong University, Chinese Invention Patent, grant date: 2007.06.06.

[16] Yiping Wang, Jianping Chen, Yunjiang Rao, Simultaneous Measurement of Bending Curvature and Bending Direction, ZL200510024425.7, Chinese Invention Patent, Shanghai Jiaotong University, grant date: 2006.12.13.

[17] Changrui Liao, Yiping Wang, Cong Xiong, Meng Zhu, Optical fiber end face microcantilever sensor and fabrication method thereof, Australian innovation patent, Shenzhen University, No.2020102409, grant date: 2020.10.21.

[18] Changrui Liao, Yiping Wang, Chi Li, Lei Xu, Optical fiber device having polymer micronano structure integrated in optical fiber and preparation method thereof，Australian innovation patent，Shenzhen University, No.2020102272, grant date: 2020.10.14.

[19] Changrui Liao, Yiping Wang, Yunfang Zhang, Chupao Lin, Single-mode fiber with a surface waveguide, SPR biosensor and preparing method, Australian innovation patent, Shenzhen University, No.2020102266, grant date: 2020.10.14.

[20] Changrui Liao, Yiping Wang, Jinli Han, Yunfang Zhang, Jiachen Wang, Dan Liu, Graphene-surface waveguide optical fiber, all-optical modulation probe and all-optical modulator, Australian innovation patent, Shenzhen University, No.2020102118, grant date: 2020.09.30.

8.Academic Results

[1]   Changrui Liao, Cong Xiong, Jinlai Zhao, Mengqiang Zou, Yuanyuan Zhao, Bozhe Li, Peng Ji, Zhihao Cai, Zongsong Gan, Ying Wang, and Yiping Wang*, Design and realization of 3D printed fiber-tip microcantilever probes applied to hydrogen sensing, Light: Advanced Manufacturing 3:5, 2022.

[2]   Shen Liu, Yanping Chen, Huailei Lai, Mengqiang Zou, Hang Xiao, Peijing Chen, Bin Du, Xunzhou Xiao, Jun He, and Yiping Wang*, Room-temperature fiber tip nanoscale optomechanical bolometer, ACS Photonics 9(5), 1586-1593, 2022.

[3]   Jia He, Xizhen Xu, Bin Du, Baijie Xu, Runxiao Chen, Ying Wang, Changrui Liao, Jinchuan Guo, Yiping Wang, and Jun He*, Stabilized ultra-high-temperature sensors based on inert gas-sealed sapphire fiber Bragg gratings, ACS Applied Materials & Interfaces 14(10), 12359-12366, 2022. 

[4]   Binyun Xia†, Bonan Liu†, Ning Wang*, Changrui Liao*, Gang Long, Chao Zhao, Zhaolong Liao, and Dajuan Lyu, Polyelectrolyte/graphene oxide nano-film integrated fiber-optic sensors for high-sensitive and rapid-response humidity measurement, ACS Applied Materials & Interfaces 14(36), 41379-41388, 2022.

[5]   Yanping Chen, Shen Liu*, Guiqing Hong, Mengqiang Zou, Bonan Liu, Junxian Luo, and Yiping Wang, Nano-optomechanical resonators for sensitive pressure sensing, ACS Applied Materials & Interfaces 14(34), 39211-39219, 2022.

[6]   Junxian Luo, Shen Liu*, Peijing Chen, Yanping Chen, Junlan Zhong, and Yiping Wang, Highly sensitive hydrogen sensor based on an optical driven nanofilm resonator, ACS Applied Materials & Interfaces 14(25), 29357-29365, 2022.

[7]   Shen Liu, Wenqi Yan, Junlan Zhong, Tao Zou, Min Zhou, Peijing Chen, Hang Xiao, Bonan Liu,  Zhiyong Bai*, and Yiping Wang, Compact breath monitoring based on helical intermediate-period fiber grating, Sensors and Actuators B: Chemical 369, 132372, 2022.

[8]   Min Zhou, Zhe Zhang, Bonan Liu, Shen Liu, Zhiyong Bai†*, Yu Liu†, Yu Pang, and Yiping Wang, Wave-band-tunable optical fiber broadband orbital angular momentum mode converter based on  dispersion turning point tuning technique, Optics Letters 47(21), 5672-5675, 2022.

[9]   Xunzhou Xiao, Jun He*, Bin Du, Xizhen Xu, and Yiping Wang, Vectorial distributed acoustic sensing based on a multicore fibre and phase-sensitive optical time-domain reflectometry, Optics Letters 47(20), 5413-5416, 2022.

[10]  Zheng Huang, Zhiyong Bai*, Rui Liu, Luping Wu, Jianjun Ran, Zikai Chen, Guoxuan Zhu, Shen Liu, Changrui Liao, and  Yiping Wang, High-order orbital angular momentum mode conversion based on a chiral long period fiber grating inscribed in a ring core fiber, Optics Letters 47(20), 5352-5355, 2022.

[11]  Lin Chen, Cailing Fu*,  Zhihao Cai,  Pengsheng Shen, Yu Fan, Huajian Zhong, Chao Du, Yanjie Meng, Yiping Wang, Changrui Liao, Jun He, and Weijia Bao, High-quality fiber Bragg grating inscribed in ZBLAN fiber using femtosecond laser point-by-point technology, Optics Letters 47(14), 3435-3438, 2022.

[12]  Shen Liu, Min Zhou, Zhe Zhang, Zhongyuan Sun, Zhiyong Bai*, and Yiping Wang, Ultrasensitive refractometer based on helical long-period fiber grating near the dispersion turning point, Optics Letters 47(10), 2602-2605 , 2022.

[13]  Huajian Zhong, Cailing Fu*, Pengfei Li, Bin Du, Chao Du, Yanjie Meng, and Yiping Wang, Distributed high-temperature sensing based on optical frequency domain reflectometry with a standard single-mode fiber, Optics Letters 47(4), 882-885, 2022.

[14]  Xunzhou Xiao, Baijie Xu, Xizhen Xu, Bin Du, Ziyong Chen, Cailing Fu, Changrui Liao, Jun He*, and Yiping Wang, Femtosecond laser auto-positioning direct writing of a multicore fiber Bragg grating array for shape sensing, Optics Letters 47(4), 758-761, 2022.

[15]  Zhi Li†, Bonan Liu†, Changrui Liao, and H. Y. Fu*, Solid-state FMCW LiDAR with in-fiber beam scanner, Optics Letters 47(3), 469-472, 2022.

[16]  Rui Liu, Yali Li, Jiayan Chen, Luping Wu, Jianjun Ran, Zikai Chen, Zhiyong Bai*, Churou Huang, Zheng Huang, Guoxuan Zhu, Changrui Liao, and Yiping Wang, Direct generation of orbital angular momentum in orthogonal fiber Bragg grating, Optics Express 30(16), 28745-28751, 2022.

[17]  Baijie Xu, Jun He*, Xizhen Xu, Jia He, Kuikui Guo, Weijia Bao, Runxiao Chen, Shen Liu, Changrui Liao, and Yiping Wang, Simultaneous measurement of torsion and strain at high temperature by using a highly birefringent cladding fiber Bragg grating, Optics Express 30(16), 28710-28719, 2022.

[18]  Jiayan Chen, Zhiyong Bai*, Guoxuan Zhu, Rui Liu, Churou Huang, Zheng Huang, Luping Wu, Changrui Liao, and Yiping Wang, Femtosecond laser inscribed helical long period fiber grating for exciting orbital angular momentum, Optics Express 30(3), 4402-4411, 2022.

[19]  Kuikui Guo, Jun He*, He Li, Xizhen Xu, Bin Du, Shen Liu, Yanping Chen, Dingbang Ma, Ying Wang, Gaixia Xu, and Yiping Wang, Polarimetric fiber laser for relative humidity sensing based on graphene oxide-coated D-shaped fiber and beat frequency demodulation, Optics Express 30(10), 15998-16008, 2022.

[20]  Shen Liu, Min Zhou, Laipeng Shao, Zhe Zhang, Zhiyong Bai*, and Yiping Wang, Torsion-tunable OAM mode generator based on oxyhydrogen-flame fabricated helical long-period fiber grating, Optics Express 30(12), 21085-21093, 2022.

[21]  Bin Du, Jun He*, Baijie Xu, Xizhen Xu, Cailing Fu, Pengfei Li, Xunzhou Xiao, Shen Liu, Yatao Yang, and Yiping Wang, High-density weak in-fiber micro-cavity array for distributed high-temperature sensing with millimeter spatial resolution, Journal of Lightwave Technology 40(22), 7447-7455, 2022.

[22]  Junlan Zhong, Wenqi Yan, Shen Liu*, Tao Zou, Min Zhou, Guiqing Hong, Peijing Chen, Hang Xiao, and Yiping Wang, Application of the principal components analysis to optical fiber sensor for multiparametric detection of strain and torsion, Journal of Lightwave Technology 40(22), 7439-7446, 2022.

[23]  Shen Liu, Peijing Chen, Junxian Luo, Yanping Chen, Bonan Liu, Hang Xiao, Wenqi Yan, Wei Ding, Zhiyong Bai*, Jun He, and Yiping Wang, Nano-optomechanical resonators based graphene/Au membrane for current sensing, Journal of  Lightwave Technology 40(21), 7200-7207, 2022.

[24]  Jun He, Runxiao Chen, Xizhen Xu*, Jia He, Baijie Xu, Shen Liu, Changrui Liao, Dejun Liu, Yuan Gong, and Yiping Wang, Slit beam shaping for femtosecond laser point-by-point inscription of highly localized fiber Bragg grating, Journal of Lightwave Technology 40(16), 5722-5728, 2022.

[25]  Kuikui Guo, Jun He*, He Li, Baijie Xu, Shengzhen Lu, Shen Liu, Xizhen Xu, Gaixia Xu, and Yiping Wang, High-spatial-resolution high-temperature sensor based on ultra-short fiber Bragg gratings with dual-wavelength differential detection, Journal of Lightwave Technology 40(7), 2166-2172, 2022.

[26]  Cong Zhao†, Dan Liu†, Zhihao Cai, Bin Du, Mengqiang Zou, Shuo Tang, Bozhe Li, Cong Xiong, Peng Ji, Lichao Zhang, Yuan Gong, Gaixia Xu, Changrui Liao*, and Yiping Wang, A wearable breath sensor based on fiber‐tip microcantilever, Biosensors 12(3), 168, 2022.

[27]  Yijian Huang, Ying Wang*, Gaixia Xu, Xing Rao, Jiaxiong Zhang, Xun Wu, Changrui Liao, and Yiping Wang,Compact surface plasmon resonance IgG sensor based on H-shaped optical fiber, Biosensors 12(3), 141, 2022.

[28]  Junlan Zhong, Shen Liu*, Tao Zou, Wenqi Yan, Min Zhou, Bonan Liu, Xing Rao, Ying Wang, Zhongyuan Sun, and Yiping Wang, All fiber-optic immunosensors based on elliptical core helical intermediate-period fiber grating with low-sensitivity to environmental disturbances, Biosensors 12(2), 99, 2022.

[29]  Huajian Zhong, Xueya Liu, Cailing Fu*,  Baijie Xu, Jun He, Pengfei Li, Yanjie Meng, Chao Du, Lin Chen, Jian Tang, and Yiping Wang, Quasi-distributed temperature and strain sensors based on series-integrated fiber Bragg gratings, Nanomaterials 12(9), 1540, 2022.

[30]  Jia He, Fengchan Zhang, Xizhen Xu, Bin Du, Jiafeng Wu, Zhuoda Li, Zhiyong Bai, Jinchuan Guo, Yiping Wang and Jun He*, Highly sensitive temperature sensor based on cascaded polymer-infiltrated fiber Mach–Zehnder interferometers operating near the dispersion turning point, Polymers 14(17), 3617, 2022.

[31]  Shen Liu, Hang Xiao, Yanping Chen, Peijing Chen, Wenqi Yan, Qiao Lin, Bonan Liu, Xizhen Xu, Yiping Wang*, Xiaoyu Weng, Liwei Liu and Junle Qu, Nano-optomechanical resonators based on suspended graphene for thermal stress sensing, Sensors 22(23), 9068, 2022.

[32]  Junlan Zhong, Shen Liu*, Tao Zou, Wenqi Yan, Peijing Chen, Bonan Liu, Zhongyuan Sun, and Yiping Wang, High-sensitivity optical fiber-based glucose sensor using helical intermediate-period fiber grating,  Sensors 22(18), 6824, 2022.

[33]  Pengfei Li, Cailing Fu*,  Huajian Zhong, Bin Du, Kuikui Guo, Yanjie Meng, Chao Du, Jun He, Lei Wang, and Yiping Wang, A nondestructive measurement method of optical fiber young’s modulus based on OFDR, Sensors 22(4), 1450, 2022.

[34]  Churou Huang, Guoxuan Zhu, Zhiyong Bai*, Jiayan Chen, Zheng Huang, Rui Liu, Luping Wu, Shen Liu, Cailing Fu, and YipingWang, Orbital angular momentum mode sensing technology based on intensity interrogation, Sensors 22(5), 1810, 2022.

[35]  Xunzhou Xiao, Jun He, Xizhen Xu*, Runxiao Chen, Bin Du, Yanping Chen, Shen Liu, Cailing Fu and Yiping Wang, High-temperature-resistant fiber laser vector accelerometer based on a self-compensated multicore fiber bragg grating, Sensors 22(17), 6459, 2022. (JCR三区, IF=3.847)

[36]  Runxiao Chen, Jun He, Xizhen Xu*, Jiafeng Wu, Ying Wang, and Yiping Wang, High-Quality Fiber Bragg Gratings Inscribed by Femtosecond Laser Point-by-Point Technology, Micromachines 13(11), 1808, 2022.

[37]  Tiesheng Wu, Dan Yang, Zhizhui Liu, Zuning Yang, Weiping Cao, and YipingWang*, Multifunctional optoelectronic device based on liquid crystal selectively filled flat-plate photonic crystal fiber, Optik 250(1), 168328, 2022.

[38]  Cong Zhao, Dan Liu, Gaixia Xu, Jiangtao Zhou, Xuming Zhang, Changrui Liao*, and Yiping Wang, Recent advances in fiber optic sensors for respiratory monitoring, Optical Fiber Technology 72, 103000, 2022.

[39]  Wenwen Niu, George Y. Chen, Haolan Xu, Xiaokong Liu*, and Junqi Sun, Highly transparent and self-healable solar thermal anti-/deicing surfaces: when ultrathin MXene multilayers marry a solid slippery self-cleaning coating, Advanced Materials 34(10), 2108232, 2022.

[40]  Lu Zhang, Quan Sheng*, Lin Chen, Junxiang Zhang, Shijie Fu, Qiang Fang, Yiping Wang, Wei Shi, and Jianquan Yao, Single-frequency Tm-doped fiber laser with 215 mW at 2.05 µm based on a Tm/Ho-codoped fiber saturable absorber, Optics Letters 47(15), 3964-3967, 2022.

[41]  Yunpeng Xing, Boyuan Xue, Peishi Qi*, George Y. Chen, and Xiaohong Zhou*, A rapid and sensitive fluorescence biosensor for Hg2+ detection in environmental samples, Sensors and Actuators Reports 4, 100101, 2022.

[42]  Boyuan Xue†, Qian Yang†, Kaidong Xia†, Zhihong Li, George Y. Chen, Dayi Zhang*, and Xiaohong Zhou*, An AuNPs/mesoporous NiO/nickel foam nanocomposite as a miniaturized electrode for heavy metal detection in groundwater, Engineering 2022.

[43]  Jisui Tan, Lanhua Liu, Fangxu Li, Zhongli Chen, George Y. Chen, Fang Fang, Jinsong Guo, Miao He, and Xiaohong Zhou*, Screening of endocrine disrupting potential of surface waters via an affinity-based biosensor in a rural community in the yellow river basin, China, Environmental Science & Technology 56, 14350-14360, 2022.

[44]  Mengqiang Zou, Changrui Liao*, Shen Liu, Cong Xiong, Cong Zhao, Jinlai Zhao, Zongsong Gan, Yanping Chen, Kaiming Yang, Dan Liu, Ying Wang, and Yiping Wang*, Fiber-tip polymer clamped-beam probe for high-sensitivity nanoforce measurements, Light: Science & Applications 10(1), 171, 2021.

[45]  Peng Ji†, Meng Zhu†, Changrui Liao*, Cong Zhao, Kaiming Yang,Cong Xiong, Jinli Han,Chi Li, Lichao Zhang, Yifan Liu, and Yiping Wang, In-fiber polymer microdisk resonator and its sensing applications of temperature and humidity, ACS Applied Materials & Interfaces 13(40), 48119-48126, 2021.

[46]  Weijia Bao, Fengyi Chen, Huailei Lai, Shen Liu*, and Yiping Wang, Wearable breath monitoring based on a flexible fiber-optic humidity sensor, Sensors and Actuators: B. Chemical 349, 130794, 2021.

[47]  Yanhong Guo†, Ning An†, Kuikui Guo†, Yiwei Li, Yupei Liang, Caihao Wu, Yuchen Wang, Jun He, Yiping Wang, Teng Tan*, Yunjiang Rao*, and Baicheng Yao*, Gas detection in a graphene based dual- mode fiber laser microcavity, Sensors and Actuators: B. Chemical 348, 130694, 2021.

[48] Jun He, Jia He, Xizhen Xu, Bin Du, Baijie Xu, Changrui Liao, Zhiyong Bai, and Yiping Wang*, Single- mode helical Bragg grating waveguide created in a multimode coreless fiber by femtosecond laser direct writing, Photonics Research 9(10), 2052-2059, 2021.

[49]  Junxian Luo, Shen Liu*, Peijing Chen, Shengzhen Lu, Qiang Zhang, Yanping Chen, Bin Du, Jian Tang, Jun He, Changrui Liao, and Yiping Wang, Fiber optic hydrogen sensor based on a Fabry-Perot interferometer with a fiber Bragg grating and a nanofilm, Lab on a Chip 21(9), 1752-1758, 2021.

[50]  Ying Wang*, Jingru Wang, Yu Shao, Changrui Liao, and Yiping Wang, Highly sensitive surface plasmon resonance humidity sensor based on a polyvinyl-alcohol-coated polymer optical fiber, Biosensors 11(11), 461, 2021.

[51]  Jun He, Ziyong Chen, Xizhen Xu*, Jia He, Baijie Xu, Bin Du, Kuikui Guo, Runxiao Chen, and Yiping Wang, Femtosecond laser line-by-line inscription of apodized fiber Bragg gratings, Optics Letters 46(22), 5663-5666, 2021.

[52]  Xizhen Xu, Jun He*, Jia He, Baijie Xu, Runxiao Chen, Ying Wang, Yatao Yang, and Yiping Wang, Efficient point-by-point Bragg grating inscription in sapphire fiber using femtosecond laser filaments, Optics Letters 46(11), 2742-2745, 2021.

[53]  Bonan Liu†, Kaiming Yang†, Changrui Liao*, Zhihao Cai, Yifan Liu, Bing Sun, and Yiping Wang, Localized tilted fiber Bragg gratings induced by femtosecond laser line-by-line inscription, Optics Letters 46(9), 2204-2207, 2021.

[54]  Laipeng Shao, Shen Liu*, Min Zhou, Zheng Huang, Weijia Bao, Zhiyong Bai, Zhao Liu, Guoxuan Zhu, Zhongyuan Sun, Junlan Zhong, and Yiping Wang, High-order OAM mode generation a helical long- period fiber grating inscribed by an oxyhydrogen-flame, Optics Express 29(26), 43371-43378, 2021.

[55]  Guoxuan Zhu, Zhiyong Bai*, Jiayan Chen, Churou Huang, Luping Wu, Cailing Fu, and Yiping Wang, Ultra-dense perfect optical orbital angular momentum multiplexed holography, Optics Express 29(18), 28452-28460, 2021.

[56]  Zheng Huang, Zhiyong Bai*, Guoxuan Zhu, Churou Huang, Jiayan Chen, Shen Liu, Cailing Fu, Jun He and Yiping Wang, Excitation of high order orbital angular momentum modes in ultra-short chiral long period fiber gratings, Optics Express 29(24), 39384-39394, 2021.

[57]  Baijie Xu, Jun He*, Bin Du, Xunzhou Xiao, Xizhen Xu, Cailing Fu, Jia He, Changrui Liao, and Yiping Wang, Femtosecond laser point-by-point inscription of an ultra-weak fiber Bragg grating array for distributed high-temperature sensing, Optics Express 29(20), 32615-32626, 2021. 

[58]  Yuanyuan Zhao, Shen Liu*, Cong Xiong, Ying Wang*, Zhengyong Li, Zhongyuan Sun, Jianqing Li, and Yiping Wang, Magnetic field sensor based on helical long-period fiber grating with a three-core optical fiber, Optics Express 29(13), 20649-20656, 2021.

[59]  Jun He, Baijie Xu, Shuai Ju, Maoxiang Hou, Kuikui Guo, Xizhen Xu, Ying Wang, Shen Liu*, and Yiping Wang*, Temperature-insensitive directional transverse load sensor based on dual side-hole fiber Bragg grating, Optics Express 29(12), 17700-17709, 2021.

[60]  Min Zhou, Zhe Zhang, Laipeng Shao, Shen Liu*, Yu Liu*, Yu Pang, Zhiyong Bai, Cailing Fu, Wei Cui, Lin Qi, and Yiping Wang, Broadband tunable orbital angular momentum mode converter based on a conventional single-mode all-fiber configuration, Optics Express 29(10), 15595-15603, 2021.

[61]  Bin Du, Jun He*, Minghong Yang, Ying Wang, Xizhen Xu, Jiacheng Wang, Zhe Zhang, Fengchan Zhang, Kuikui Guo, and Yiping Wang, Highly sensitive hydrogen sensor based on an in-fiber Mach-Zehnder interferometer with polymer infiltration and Pt-loaded WO3 coating, Optics Express 29(3), 4147-4158, 2021.

[62]  Kaiming Yang, Bonan Liu, Changrui Liao*, Yongxue Wang*, Zhihao Cai, Jian Tang, Yatao Yang, and Yiping Wang, Highly localized point-by-point fiber Bragg grating for multi-parameter measurement, Journal of Lightwave Technology 39(20), 6686-6690, 2021.

[63]  Tao Zou, Junlan Zhong, Shen Liu*, Guoxuan Zhu, Yuanyuan Zhao, Junxian Luo, Shengzhen Lu, Qiang Zhang, Jun He, Zhiyong Bai, and Yiping Wang, Helical intermediate-period fiber grating for refractive index measurements with low-sensitive temperature and torsion response, Journal of Lightwave Technology 39(20), 6678-6685, 2021.

[64]  Yanjie Meng, Cailing Fu*, Chao Du, Lin Chen, Huajian Zhong, Pengfei Li, Baijie Xu, Bin Du, Jun He, and Yiping Wang, Shape sensing using two outer cores of multicore fiber and optical frequency domain reflectometer, Journal of Lightwave Technology 39(20), 6624-6630, 2021.

[65]  Pengfei Li, Cailing Fu*, Bin Du, Jun He, Huajian Zhong, Chao Du, Lei Wang, and Yiping Wang, High-spatial-resolution strain sensor based on distance compensation and image wavelet denoising method in OFDR, Journal of Lightwave Technology 39(19), 6334-6339, 2021.

[66]  Xizhen Xu, Jun He*, Jia He, Baijie Xu, Runxiao Chen, Kaiming Yang, Changrui Liao, Yatao Yang, and Yiping Wang, Slit beam shaping for femtosecond laser point-by-point inscription of high-quality fiber Bragg gratings, Journal of Lightwave Technology 39(15), 5142-5148, 2021.

[67]  Han Wu, Ying Wang*, Lichao Zhang, Kuikui Guo, Yijian Huang, Changrui Liao, and Yiping Wang, ZnO microwire-based fiber-tip Fabry-Perot interferometer for deep ultraviolet sensing, Journal of Lightwave Technology 39(12), 4225-4229, 2021.

[68]  Guoxuan Zhu, Zhao Liu, Cailing Fu, Shen Liu, Zhiyong Bai*, and Yiping Wang, High-precise fractional orbital angular momentum probing with a fiber grating tip, Journal of Lightwave Technology 39(6), 1867-1872, 2021.

[69]  Yanping Chen, Junxian Luo, Shen Liu*, Mengqiang Zou, Shengzhen Lu, Yong Yang, Changrui Liao, Wenjie Feng, and Yiping Wang, A Fabry–Perot interferometer with asymmetrical tapered-fiber for improving strain sensitivity, Journal of Lightwave Technology 39(5), 1509-1514, 2021.

[70]  Jian Yu, Cailing Fu, Zhiyong Bai*, and Yiping Wang, Super-variable focusing vortex beam generators based on spiral zone plate etched on optical fiber facet, Journal of Lightwave Technology 39(5), 1416-1422, 2021

[71]  Tingting Yuan, Xiaotong Zhang, Qi Xia, Yiping Wang, and Libo Yuan*, Design and fabrication of a functional fiber for micro flow sensing, Journal of Lightwave Technology 39(1), 290-294, 2021.

[72]  Tingting Yuan, Xiaotong Zhang, Qi Xia, Yiping Wang, and Libo Yuan*, A twin-core and dual-hole fiber design and fabrication, Journal of Lightwave Technology 39(12), 4028-4033, 2021

[73]  Tiesheng Wu, Zhihui Liu*, Yiping Wang*, Huixian Zhang, Zuning Yang, and Dan Yang, All-dielectric phase-gradient metasurface performing high-efficiency anomalous transmission in the near-infrared region, Nanoscale Research Letters 16(1), 158, 2021.

[74]  Cailing Fu, Pengfei Li, Zhiyong Bai, and Yiping Wang*, Helical long period fiber grating inscribed in elliptical core polarization-maintaining fiber, IEEE Access 9, 59378-59382, 2021.

[75]  Xing Rao†, Lin Zhao†, Lukui Xu, Yuhang Wang, Kuan Liu, Ying Wang, George Y. Chen*, Tongyu Liu, and Yiping Wang, Review of optical humidity sensors, Sensors 21(23), 8049, 2021.

[76]  Zhe Zhang, Yingying Wang, Min Zhou, Jun He*, Changrui Liao, and Yiping Wang, Recent advance in hollow-core fiber high-temperature and high-pressure sensing technology, Chinese Optics Letters 19(7), 070601, 2021.

[77]  Jun He, Baijie Xu, Xizhen Xu, Changrui Liao, and Yiping Wang*, Review of femtosecond-laser-inscribed fiber Bragg gratings: fabrication technologies and sensing applications, Photonic Sensors 11 (2), 203-226, 2021.

[78]  Bonan Liu, Junxian Luo, Shen Liu*, Yanping Chen, Bo Huang, Changrui Liao, and Yiping Wang, A probe-shaped sensor with FBG and fiber-tip bubble for pressure and temperature sensing, Photonic Sensors 11(4), 411-417, 2021.

[79]  Zhe Zhang†, Baijie Xu†, Min Zhou, Weijia Bao, Xizhen Xu, Ying Wang, Jun He*, and Yiping Wang, Hollow-core fiber-tip interferometric high-temperature sensor operating at 1100°C with high linearity, Micromachines 12(3), 234, 2021.

[80]  Chi Li†, Meng Zhu†, Peng Ji, Cong Xiong, and Changrui Liao*, In-Fiber BaTiO3 microsphere resonator for high-sensitivity temperature measurement, Micromachines 12(3), 318, 2021.

[81]  Maolin Dai, Zhenmin Chen, Yuanfang Zhao, Xin Mu, Xuanyi Liu, M. S. Aruna Gandhi, Qian Li, Shengzhen Lu, Shen Liu, and H. Y. Fu*, Fiber optic temperature sensor with online controllable sensitivity based on Vernier effect, IEEE Sensors Journal 21(19), 21555-21563, 2021.

[82]  Wenbing Yu* and Ying Wang, Dynamic temperature characteristics of liquid filled photonic crystal fiber, Journal of Wuhan University of Technology-Materials Science Edition 36(1), 29-32, 2021.

[83]  Cong Xiong, Jiangtao Zhou, Changrui Liao*, Meng Zhu, Ying Wang, Shen Liu, Chi Li, Yunfang Zhang, Yuanyuan Zhao, Zongsong Gan, Leonardo Venturelli, Sandor Kasas, Xuming Zhang, Giovanni Dietler*, and Yiping Wang, Fiber-tip polymer microcantilever for fast and highly sensitive hydrogen measurement, ACS Applied Materials & Interfaces 12(29), 33163-33172, 2020.

[84]  Changrui Liao*, Chi Li, Chao Wang, Ying Wang, Jun He, Shen Liu, Zhiyong Bai, Zongsong Gan, and Yiping Wang, High-speed all-optical modulator based on a polymer nanofiber Bragg grating printed by femtosecond laser, ACS Applied Materials & Interfaces 12(1), 1465-1473, 2020. 

[85]  Ning An, Teng Tan, Zheng Peng, Chenye Qin, Zhongye Yuan, Lei Bi, Changrui Liao, Yiping Wang, Yunjiang Rao*, Giancarlo Soavi*, and Baicheng Yao*, Electrically tunable four-wave-mixing in graphene heterogeneous fiber for individual gas molecule detection, Nano Letters 20(9), 6473-6480, 2020.

[86]  Jian Yu, Yiping Wang, Wu Yang, Zhiyong Bai*, Zhenwei Xie*, Zhao Liu, and Changrui Liao, All-fiber focused beam generator integrated on an optical fiber tip, Applied Physics Letters 116(24),  2020.  

[87]  Yali Li, Zhiyong Bai*, Zhao Liu, Guoxuan Zhu, Kaiming Yang, Jian Yu, Jiayan Chen, Cailing Fu, Changrui Liao, and Yiping Wang, High purity optical vortex generation in a fiber Bragg grating inscribed by a femtosecond laser, Optics Letters 45(24), 6679-6682, 2020.

[88]  Cailing Fu, Pengfei Li, Zhiyong Bai, Shen Liu, and Yiping Wang*, Compact and broad wavelength range tunable orbital angular momentum mode generator based on cascaded helical photonic crystal fibers, Optics Letters 45(18),5032-5035, 2020.

[89]  Zhengyong Li, Changrui Liao*, Yatao Yang, Ying Wang, and Yiping Wang, High-sensitivity gas pressure sensor based on a multimode interferometer using hollow-core tube lattice fiber, Optics Letters 45(16), 4571-4574, 2020.

[90]  Junxian Luo, Shen Liu*, Yuanyuan Zhao, Yanping Chen, Kaiming Yang, Kuikui Guo, Jun He, Changrui Liao, and Yiping Wang, Phase-shifted fibei Bragg grating modulated by a hollow cavity for measuring gas pressure, Optics Letters 45(2), 507-510, 2020.

[91]  Mengshi Wu, Chi Li, Xinyu Fan*, Changrui Liao, and Zuyuan He, Large-scale multiplexed weak reflector array fabricated with a femtosecond laser for a fiber-optic quasi-distributed acoustic sensing system, Optics Letters 45(13), 3685-3688, 2020.

[92]  Jian Yu, Zhiyong Bai, Guoxuan Zhu, Cailing Fu, Yali Li, Shen Liu, Changrui Liao, and Yiping Wang*, 3D nanoprinted kinoform spiral zone plates on fiber facets for high-efficiency focused  vortex beam generation, Optics Express 28(25), 38127-38139, 2020.

[93]  Weijia Bao, Namita Sahoo, Zhongyuan Sun, Changle Wang, Shen Liu*, Yiping Wang, and Lin Zhang, Selective fiber Bragg grating inscription in four-core fiber for two-dimension vector bending sensing, Optics Express 28(18), 26461-26469, 2020.

[94]  Zhao Liu, Guoxuan Zhu, Yali Li, Jian Yu, Zhiyong Bai*, Shen Liu, Jun He, and Yiping Wang, Orthogonal long-period fiber grating for directly exciting the orbital angular momentum, Optics Express 28(18), 27044-27051, 2020.

[95]  Jinli Han, Yunfang Zhang, Changrui Liao*, Yuying Jiang, Ying Wang, Chupao Lin, Shen Liu, Jiachen Wang, Zhe Zhang, Jiangtao Zhou, and Yiping Wang, Fiber-interface directional coupler inscribed by femtosecond laser for refractive index measurements, Optics Express 28(10), 14263-14270, 2020.

[96]  Guolu Yin, Fengchan Zhang, Baijie Xu, Jun He*, and Yiping Wang, Intensity-modulated bend sensor by using a twin core fiber: theoretical and experimental studies, Optics Express 28(10), 14850-14858, 2020.

[97]  Yuanyuan Zhao, Shen Liu*, Junxian Luo, Yanping Chen, Cailing Fu, Cong Xiong, Ying Wang, Shouyong Jing, Zhiyong Bai, Changrui Liao, and Yiping Wang, Torsion, refractive index, and temperature sensors based on an improved helical long period fiber grating, Journal of Lightwave Technology 38(8), 2504-2510, 2020.

[98]  Kuikui Guo, Jun He*, Laipeng Shao, Gaixia Xu, and Yiping Wang, Simultaneous measurement of strain and temperature by a sawtooth stressor-assisted highly birefringent fiber Bragg grating, Journal of Lightwave Technology 38(7), 2060-2066, 2020.

[99]  Xuhao Zhao, Ying Wang, Changrui Liao, Gang-Ding Peng, Yuan Gong*, and Yiping Wang*, Polymer- coated hollow fiber optofluidic laser for refractive index sensing, Journal of Lightwave Technology 38(6), 1550-1556, 2020.

[100]Kaiming Yang, Changrui Liao*, Shen Liu, Jun He, Jia Wang, and Yiping Wang, Optical fiber tag based on an encoded fiber Bragg grating fabricated by femtosecond laser, Journal of Lightwave Technology 38(6), 1474-1479, 2020.

[101]Ziyu Lin, Xu Feng, Yunfang Zhang, Bijiao Lan, Weida Zhang, Changrui Liao, Yiping Wang, Jianrong Qiu, and Shifeng Zhou*, Multicomponent photonic glass for temperature insensitive fiber probe, Journal of Lightwave Technology 38(16), 4470-4477, 2020.

[102]Kuikui Guo, Jun He*, Gaixia Xu, and Yiping Wang, Dual-polarization distributed feedback fiber laser sensor based on femtosecond laser-inscribed in-fiber stressors for simultaneous strain and temperature measurements, IEEE Access 8, 97823-97829, 2020.

[103]Bo Huang, Ying Wang*, and Changrui Liao, and Yiping Wang, Highly sensitive temperature sensor based on all-fiber polarization interference filter with Vernier effect, IEEE Access 8, 207397-207403, 2020.

[104]Bo Huang, Ying Wang*, and Chun Mao, Lyot filter with femtosecond laser-induced high birefringence single-mode fiber for torsion, transverse load and temperature sensing, IEEE Access 8, 25764-25769, 2020.

[105]Yanping Chen†, Junxian Luo†, Shen Liu*, Mengqiang Zou, Shengzhen Lu, Yong Yang, Changrui Liao, and Yiping Wang, A high-strength strain sensor based on a reshaped micro-air-cavity, Sensors 20(16), 4530, 2020.

[106]Weijia Bao, Shen Liu*, Wenjie Feng and Yiping Wang, Fiber Bragg grating with enhanced cladding modes inscribed by femtosecond laser and a phase mask, Sensors 20(24), 7004, 2020.

[107]Zhe Zhang, Baijie Xu, Jun He*, Maoxiang Hou, Weijia Bao, and Yiping Wang, High-efficiency inscription of fiber Bragg grating array with high-energy nanosecond-pulsed laser Talbot interferometer, Sensors 20(15), 4307, 2020.

[108]Wei Huang†, Zhe Zhang†, Jun He*, Bin Du, Changrui Liao, Shen Liu, Guolu Yin, and Yiping Wang, Nonlinear hydraulic pressure response of an improved fiber tip interferometric high-pressure sensor, Sensors 20(9), 2548, 2020.

[109]Feng Zhang, Ying Wang*, Zhiyong Bai, Shen Liu, Cailing Fu, Yijian Huang, Changrui Liao, and Yiping Wang, Helicity enhanced torsion sensor based on liquid filled twisted photonic crystal fibers, Sensors 20(5), 1490, 2020.

[110]Yijian Huang, Shuhui Liu, Lichao Zhang, Yiping Wang, and Ying Wang*, Self-imaging effect in liquid-filled hollow-core capillary waveguide for sensing applications, Sensors 20(1), 135, 2020.

[111]Cong Xiong, Changrui Liao*, Zhengyong Li, Kaiming Yang, Meng Zhu, Yuanyuan Zhao, and Yiping Wang, Optical fiber integrated functional micro-/nanostructure induced by two-photon polymerization, Frontiers in Materials 7, 586496, 2020.

[112]Bing Sun, and Yiping Wang*, High-sensitivity detection of IgG operating near the dispersion turning point in tapered two-mode fibers, Micromachines 11(3), 270, 2020.

[113]Zhiyong Bai, Yiping Wang*, Yan Zhang, Cailing Fu, Shen Liu, Mingquan Li, Changrui Liao, Ying Wang, and Jun He, Helical long-period fiber gratings as wavelength-tunable orbital angular momentum mode generators, IEEE Photonics Technology Letters 32(7), 418-421, 2020.

[114]Changrui Liao*, Tianhang Yang, and Jinli Han, Study of temporal thermal response of microfiber Bragg grating, Photonic Sensors 11(4), 387-391, 2020.

[115]Tiesheng Wu, Xueyu Wang*, Huixian Zhang, Weiping Cao, Yiying Wang, Yiping Wang, Zhihui Liu, Dan Yang, and Zuning Yang, Ultra-broadband visible and mid-infrared light absorber via magnetic dipole and surface plasmon resonances, Optik 220, 165142, 2020.

[116]Longfei Zhang, Ying Wang*, Han Wu, Maoxiang Hou, Jingru Wang, Lichao Zhang, Changrui Liao, Shen Liu, and Yiping Wang*, A ZnO nanowire-based microfiber coupler for all-optical photodetection applications, Nanoscale 11(17), 8319-8326, 2019.

[117]Yong Xu, Chaoyang Gong, Qiushu Chen, Yanhua Luo, Yu Wu, Yiping Wang, Gang-Ding Peng, Yun- Jiang Rao, Xudong Fan, and Yuan Gong*, Highly reproducible, isotropic optofluidic laser based on hollow optical fiber, IEEE Journal of Selected Topics in Quantum Electronics 25(1), 0900206, 2019.

[118]Xueya Liu, Yiping Wang*, Ziliang Li, Shen Liu, Ying Wang, Cailing Fu, Changrui Liao, Zhiyong Bai, Jun He, Zhengyong Li, and Laipeng Shao, Low short-wavelength loss fiber Bragg gratings inscribed in a small-core fiber by femtosecond laser point-by-point technology, Optics Letters 44(21), 5121-5124, 2019.

[119]Jiachen Wang, Jinli Han, Jun He*, Changrui Liao, and Yiping Wang, High-energy mode-locked holmium-doped fiber laser operating in noise-like pulse regime, Optics Letters 44(18), 4491-4494, 2019.

[120]Xizhen Xu, Jun He*, Changrui Liao, and Yiping Wang, Multi-layer, offset-coupled sapphire fiber Bragg gratings for high-temperature measurements, Optics Letters 44(17), 4211-4214, 2019.

[121]Fengchan Zhang, Xizhen Xu, Jun He*, Bin Du, and Yiping Wang, Highly sensitive temperature sensor based on a polymer-infiltrated Mach-Zehnder interferometer created in graded index fiber, Optics Letters 44(10), 2466-2469, 2019.

[122]Yunfang Zhang, Changrui Liao*, Chupao Lin, Yu Shao, Ying Wang, and Yiping Wang, Surface plasmon resonance refractive index sensor based on fiber-interface waveguide inscribed by femtosecond laser, Optics Letters 44(10), 2434-2437, 2019.

[123]Cailing Fu, Yiping Wang*, Shen Liu, Zhiyong Bai, Jian Tang, Laipeng Shao, and Xueya Liu, Transverse- load, strain, temperature, and torsion sensors based on helical photonic crystal fiber, Optics Letters 44 (8), 1984-1987, 2019.

[124]Cailing Fu, Yiping Wang*, Zhiyong Bai, Shen Liu, Yan Zhang, and Ziliang Li, Twist-direction-dependent orbital angular momentum generator based on inflation-assisted helical photonic crystal fiber, Optics Letters 44(2), 459-462, 2019.

[125]Yan Zhang, Zhiyong Bai*, Cailing Fu, Shen Liu, Jian Tang, Jian Yu, Changrui Liao, Ying Wang, Jun He, and Yiping Wang, Polarization-independent orbital angular momentum generator based on a chiral fiber grating, Optics Letters 44(1), 61-64, 2019.

[126]Zhe Zhang, Jun He*, Bin Du, Kuikui Guo, and Yiping Wang, Highly sensitive gas refractive index sensor based on hollow-core photonic bandgap fiber, Optics Express 27(21), 29649-29658, 2019.

[127]Jiachen Wang, Jun He*, Changrui Liao, and Yiping Wang, Low-amplitude, drifting sub-pulses hiding in background of noise-like pulse generated in fiber laser, Optics Express 27(21), 29606-29619, 2019.

[128]Yanping Chen, Shen Liu*, Zhongyuan Sun, Lin Zhang, Namita Sahoo, Junxian Luo, Yuanyuan Zhao, Changrui Liao, Bin Du, Chi Li, and Yiping Wang, Undamaged measurement of the sub-micron diaphragm and gap by tri-beam interference, Journal of Lightwave Technology 37(23), 5840-5847, 2019.

[129]Peng Zhou, Changrui Liao*, Zhengyong Li, Shen Liu, and Yiping Wang, In-fiber cascaded FPI fabricated by chemical-assisted femtosecond laser micromachining for micro-fluidic sensing applications, Journal of Lightwave Technology 37(13), 3214-3221, 2019.

[130]Yiping Wang, Ziliang Li, Shen Liu, Cailing Fu, Zhengyong Li, Zhe Zhang, Ying Wang, Jun He, Zhiyong Bai, and Changrui Liao*, Parallel-integrated fiber Bragg gratings inscribed by femtosecond laser point-by-point technology, Journal of Lightwave Technology 37(10), 2185-2193, 2019.

[131]Yijian Huang, Ying Wang*, Longfei Zhang, Yu Shao, Feng Zhang, Changrui Liao, and Yiping Wang, Tunable electro-optical modulator based on a photonic crystal fiber selectively filled with liquid crystal, Journal of Lightwave Technology 37(9), 1903-1908, 2019.

[132]Zhengyong Li, Changrui Liao*, Jia Wang, Ziliang Li, Peng Zhou, Ying Wang, and Yiping Wang, Femtosecond laser microprinting of a fiber whispering gallery mode resonator for highly-sensitive temperature measurements, Journal of Lightwave Technology 37(4), 1241-1245, 2019.

[133]Cai Wang, Han Wang, Faxing Zou, Shaojun Chen*, and Yiping Wang*, Development of polyhydroxyalkanoate-based polyurethane with water-thermal response shape-memory behavior as new 3D elastomers scaffolds, Polymers 11(6), 1030, 2019.

[134]Weijia Bao*, Changle Wang, Yiping Wang, Namita Sahoo, and Lin Zhang, 2D bending (curvature) recognition based on a combination of a TFBG and an orthogonal TFBG pair, Applied Physics Express 12(7), 072009, 2019. 

[135]Zhiyong Bai†, Mingquan Li†, Yiping Wang*, Jian Tang, Zhe Zhang, Shen Liu, Cailing Fu, Yan Zhang, Jun He, Ying Wang, and Changrui Liao, Orbital angular momentum generator based on hollow-core photonic bandgap fiber grating, Applied Physics Express 12(7), 072004, 2019.

[136]Bo Huang, Ying Wang*, Chun Mao, and Yiping Wang, Temperature- and strain- insensitive transverse load sensing based on optical fiber reflective Lyot filter, Applied Physics Express 12(7), 076501, 2019.

[137]Cailing Fu, Yiping Wang*, Shen Liu, Zhiyong Bai, Changrui Liao, Jun He, and Ying Wang, Recent progress in fabrications and applications of heating-induced long period fiber gratings, Sensors 19(20), 4473, 2019.

[138]Bo Huang, Ying Wang*, and Chun Mao, Temperature-independent gas pressure sensor with high birefringence photonic crystal fiber-based reflective Lyot filter, Sensors 19(23), 5312, 2019.

[139]Shuhui Liu, Shaoqing Cao, Zhe Zhang, Ying Wang*, Changrui Liao, and Yiping Wang, Temperature sensor based on side-polished fiber SPR device coated with polymer, Sensors 19(19), 4063, 2019.

[140]Bin Du, Xizhen Xu, Jun He*, Kuikui Guo, Wei Huang, Fengchan Zhang, Min Zhang, and Yiping Wang, In-fiber collimator-based Fabry-Perot interferometer with enhanced vibration sensitivity, Sensors 19(2), 435, 2019.

[141]Cai Wang, Yili Du, Biyan Chen, Shaojun Chen*, and Yiping Wang*, A novel highly stretchable, adhesive and self-healing silk fibroin powder-based hydrogel containing dual-network structure, Materials Letters 252, 126-129, 2019.

[142]Kuikui Guo, Jun He*, Kaiming Yang, Zhe Zhang, Xizhen Xu, Bin Du, Gaixia Xu, and Yiping Wang, Symmetric step-apodized distributed feedback fiber laser with improved efficiency, IEEE Photonics Journal 11(4), 1600211, 2019.

[143]Yijian Huang, Ying Wang*, Chun Mao, Jingru Wang, Han Wu, Changrui Liao, and Yiping Wang, Liquid-crystal-filled side-hole fiber for high-sensitivity temperature and electric field measurement, Micromachines 10(11), 761, 2019.

[144]Changrui Liao, Feng Zhu*, Peng Zhou, and Ying Wang, Fiber taper-based Mach-Zehnder interferometer for ethanol concentration measurement, Micromachines 10(11), 741, 2019.

[145]Changrui Liao, Kaiming Yang, Jia Wang, Zhiyong Bai, Zongsong Gan, and Yiping Wang*, Helical microfiber Bragg grating printed by femtosecond laser for refractive index sensing, IEEE Photonics Technology Letters 31(12), 971-974, 2019.

[146]Laipeng Shao, Junhui Hu, Hanglin Lu, Jing Du, Tianyin Wu, and Yiping Wang*, High-sensitivity temperature sensor based on polarization maintaining fiber Sagnac loop, Photonic Sensors 9(1), 25-32, 2019.

[147]Chupao Lin, Changrui Liao*, Yunfang Zhang, Lei Xu, Ying Wang, Cailing Fu, Kaiming Yang, Jia Wang, Jun He, and Yiping Wang*, Optofluidic gutter oil discrimination based on a hybrid-waveguide coupler in fibre, Lab on a Chip 18(4), 595-600, 2018.

[148]Zhe Zhang, Jun He*, Bin Du, Fengchan Zhang, Kuikui Guo, and Yiping Wang, Measurement of high pressure and high temperature using a dual-cavity Fabry-Pérot interferometer created in cascade hollow- core fibers, Optics Letters 43(24), 6009-6012, 2018.

[149]Xizhen Xu, Jun He*, Changrui Liao, Kaiming Yang, Kuikui Guo, Chi Li, Yunfang Zhang, Zhengbiao Ouyang, and Yiping Wang, Sapphire fiber Bragg gratings inscribed with a femtosecond laser line-by-line scanning technique, Optics Letters 43(19), 4562-4565, 2018.

[150]Yunfang Zhang, Chupao Lin, Changrui Liao*, Kaiming Yang, Zhengyong Li, and Yiping Wang, Femtosecond laser-inscribed fiber interface Mach-Zehnder interferometer for temperature-insensitive refractive index measurement, Optics Letters 43(18), 4421-4424, 2018.

[151]Shen Liu, Zhongyuan Sun, Lin Zhang, Cailing Fu, Yu Liu, Changrui Liao, Jun He, Zhiyong Bai, Ying Wang, and Yiping Wang*, Strain-based tunable optical microresonator with an in-fiber rectangular air bubble, Optics Letters 43(17), 4077-4080, 2018.

[152]Chi Li, Changrui Liao*, Jia Wang, Zhengyong Li, Ying Wang, Jun He, Zhiyong Bai, and Yiping Wang, Femtosecond laser microprinting of a polymer fiber Bragg grating for high-sensitivity temperature measurements, Optics Letters 43(14), 3409-3412, 2018.

[153]Zhe Zhang, Jun He*, Qi Dong, Zhiyong Bai, Changrui Liao, Ying Wang, Shen Liu, Kuikui Guo, and Yiping Wang, Diaphragm-free gas-pressure sensor probe based on hollow-core photonic bandgap fiber, Optics Letters 43(13), 3017-3020, 2018.

[154]Cailing Fu, Shen Liu, Ying Wang, Zhiyong Bai, Jun He, Changrui Liao, Yan Zhang, Feng Zhang, Bin Yu, Shecheng Gao, Zhaohui Li, and Yiping Wang*, High-order orbital angular momentum mode generator based on twisted photonic crystal fiber, Optics Letters 43(8), 1786-1789, 2018.

[155]Kuikui Guo, Jun He*, Shaoqing Cao, Maoxiang Hou, Zhe Zhang, Gaixia Xu, and Yiping Wang, Beat frequency tuning in dual-polarization distributed feedback fiber laser using side polishing technique, Optics Express 26(26), 34699-34710, 2018.

[156]Chun Mao, Bo Huang, Ying Wang*, Yijian Huang, Longfei Zhang, Yu Shao, and Yiping Wang, High-sensitivity gas pressure sensor based on hollow-core photonic bandgap fiber Mach-Zehnder interferometer, Optics Express 26(23), 30108-30115, 2018.

[157]Jinshan Xu, Jun He*, Wei Huang, Xizhen Xu, Kuikui Guo, Zhe Zhang, and Yiping Wang, Suppression of parasitic interference in a fiber-tip Fabry-Perot interferometer for high-pressure measurements, Optics Express 26(22), 28178-28186, 2018.

[158]Maoxiang Hou, Kaiming Yang, Jun He*, Xizhen Xu, Shuai Ju, Kuikui Guo, and Yiping Wang*, Two- dimensional vector bending sensor based on seven-core fiber Bragg gratings, Optics Express 26(18), 23770-23781, 2018.

[159]Ziliang Li, Shen Liu*, Zhiyong Bai, Cailing Fu, Yan Zhang, Zhongyuan Sun, Xueya Liu, and Yiping Wang, Residual-stress-induced helical long period fiber gratings for sensing applications, Optics Express 26(18), 24113-24122, 2018.

[160]Jiangtao Zhou†, Kuikui Guo†, Jun He*, Maoxiang Hou, Zhe Zhang, Changrui Liao, Ying Wang, Gaixia Xu, and Yiping Wang, Novel fabrication technique for phase-shifted fiber Bragg gratings using a variable-velocity scanning beam and a shielded phase mask, Optics Express 26(10), 13311-13321, 2018.

[161]Shaoqing Cao†, Yu Shao†, Ying Wang*, Tiesheng Wu, Longfei Zhang, Changrui Liao, Jun He, and Yiping Wang, Highly sensitive surface plasmon resonance biosensor based on a low-index polymer optical fiber, Optics Express 26(4), 3988-3994, 2018.

[162]Jia Wang†, Chupao Lin†, Changrui Liao*, Zongsong Gan, Zhengyong Li, Shen Liu, Lei Xu, Ying Wang, Jun He, and Yiping Wang, Bragg resonance in microfiber realized by two-photon polymerization, Optics Express 26(4), 3732-3737, 2018.

[163]Chao Wang, Jingchuan Zhang, Congzhe Zhang, Jun He, Yuechuan Lin, Wei Jin, Changrui Liao, Ying Wang, and Yiping Wang*, Bragg gratings in suspended-core photonic microcells for high temperature applications, Journal of Lightwave Technology 36(14), 2920-2924, 2018.

[164]Xizhen Xu, Jun He*, Maoxiang Hou, Shuhui Liu, Zhiyong Bai, Ying Wang, Changrui Liao, Zhengbiao Ouyang, and Yiping Wang, A miniature fiber collimator for highly sensitive bend measurements, Journal of Lightwave Technology 36(14), 2827-2833, 2018.

[165]Cailing Fu†, Shen Liu†, Zhiyong Bai, Jun He, Changrui Liao, Ying Wang, Ziliang Li, Yan Zhang, Kaiming Yang, Bin Yu, and Yiping Wang*, Orbital angular momentum mode converter based on helical long period fiber grating inscribed by hydrogen-oxygen flame, Journal of Lightwave Technology 36(9), 1683-1688, 2018.

[166]Chi Li, Changrui Liao*, Jia Wang, Zongsong Gan, and Yiping Wang, Femtosecond laser microprinting of a polymer optical fiber interferometer for high-sensitivity temperature measurement, Polymers 10(11), 1192, 2018.

[167]Feng Zhang, Shen Liu, Ying Wang*, Yijian Huang, Xizhen Xu, Cailing Fu, Tiesheng Wu, Changrui Liao, and Yiping Wang*, Highly sensitive torsion sensor based on directional coupling in twisted photonic crystal fiber, Applied Physics Express 11(4), 042501, 2018.

[168]Maoxiang Hou, Jun He*, Xizhen Xu, Ziliang Li, Zhe Zhang, Kuikui Guo, Shuai Ju, and Yiping Wang*, Antiresonant reflecting guidance and Mach-Zender interference in cascaded hollow-core fibers for multi- parameter sensing, Sensors 18(12), 4140, 2018.

[169]Jian Tang, Cailing Fu, Zhiyong Bai, Changrui Liao, and Yiping Wang*, Sensing characteristics of tilted long period fiber gratings inscribed by infrared femtosecond laser, Sensors 18(9), 3003, 2018.

[170]Yu Shao, Ying Wang*, Shaoqing Cao, Yijian Huang, Longfei Zhang, Feng Zhang, Changrui Liao, and Yiping Wang, Mechanism and characteristics of humidity sensing with polyvinyl alcohol-coated fiber surface plasmon resonance sensor, Sensors 18(7), 2029, 2018.

[171]Shen Liu†, Yan Zhang†, Cailing Fu, Zhiyong Bai, Ziliang Li, Changrui Liao, Ying Wang, Jun He, Yu Liu*, and Yiping Wang*, Temperature insensitivity polarization-controlled orbital angular momentum mode converter based on an LPFG induced in four-mode fiber, Sensors 18(6), 1766, 2018.

[172]Binbin Yan, Guoqiang Liu, Jun He, Yanhua Luo*, Liwei Yang, Haifeng Qi, Xinzhu Sang, Kuiru Wang, Chongxiu Yu, Jinhui Yuan, and Gang-Ding Peng, Simultaneous vector bend and temperature sensing based on a polymer and silica optical fibre grating pair, Sensors 18(10), 3507, 2018.

[173]Yanhua Luo*, Binbin Yan, Jianzhong Zhang, Jianxiang Wen, Jun He, and Gang-Ding Peng, Development of Bi/Er co-doped optical fibers for ultra-broadband photonic applications, Frontiers of Optoelctronics 11(1), 37-52, 2018.

[174]Chupao Lin†, Ying Wang†, Yijian Huang, Changrui Liao*, Zhiyong Bai, Maoxiang Hou, Zhengyong Li, and Yiping Wang*, Liquid modified photonic crystal fiber for simultaneous temperature and strain measurement, Photonics Research 5(2), 129-133, 2017.

[175]Shen Liu, Yiping Wang*, Changrui Liao, Ying Wang, Jun He, Cailing Fu, Kaiming Yang, Zhiyong Bai, and Feng Zhang, Nano silica diaphragm in-fiber cavity for gas pressure measurement, Scientific Reports 7, 787, 2017.

[176]Chupao Lin, Changrui Liao*, Jia Wang, Jun He, Ying Wang, Zhengyong Li, Tianhang Yang, Feng Zhu, Kaiming Yang, Zhe Zhang, and Yiping Wang*, Fiber surface Bragg grating waveguide for refractive index measurements, Optics Letters 42(9),1684-1687, 2017.

[177]Guolu Yin*, Changle Wang, Yunhe Zhao, Biqiang Jiang, Tao Zhu, Yiping Wang, and Lin Zhang, Multi-channel mode converter based on modal interferometer in two mode fiber, Optics Letters 42(18), 3757-3760, 2017.

[178]Chao Wang, Jun He, Jingchuan Zhang, Changrui Liao, Ying Wang, Wei Jin, Yiping Wang*, and Junhua Wang*, Bragg gratings inscribed in selectively inflated photonic crystal fibers, Optics Express 25(23), 28442-28450, 2017.

[179]Tiesheng Wu, Yu Shao, Ying Wang*, Shaoqing Cao, Weiping Cao, Feng Zhang, Changrui Liao, Jun He, Yijian Huang, Maoxiang Hou, and Yiping Wang*, Surface plasmon resonance biosensor based on gold- coated side-polished hexagonal structure photonic crystal fiber, Optics Express 25(17), 20313-20322, 2017.

[180]Zhengyong Li, Changrui Liao*, Danni Chen, Jun Song, Wei Jin, Gang-Ding Peng, Feng Zhu, Ying Wang, Jun He, and Yiping Wang*, Label-free detection of bovine serum albumin based on an in-fiber Mach- Zehnder interferometric biosensor, Optics Express 25(15), 17105-17113, 2017.

[181]Mi Deng†, Jinshan Xu†, Zhe Zhang, Zhiyong Bai, Shen Liu, Ying Wang, Yan Zhang, Changrui Liao, Wei Jin, Gang-Ding Peng, and Yiping Wang*, Long period fiber grating based on periodically screw-type distortions for torsion sensing, Optics Express 25(13), 14308-14316, 2017.

[182]Kuikui Guo†, Jiangtao Zhou†, Jun He*, Changrui Liao, Ying Wang, Zhengyong Li, Kaiming Yang, Shen Liu, and Yiping Wang, An all-fiber fan-out device for varying twin-core fiber types, Journal of Lightwave Technology 35(23), 5121-5126, 2017.

[183]Kaiming Yang†, Jun He†, Changrui Liao, Ying Wang, Shen Liu, Kuikui Guo, Jiangtao Zhou, Zhengyong Li, Zhan Tan, and Yiping Wang*, Femtosecond laser inscription of fiber Bragg grating in twin-core few-mode fiber for directional bend sensing, Journal of Lightwave Technology 35(21), 4670-4676, 2017.

[184]Zhe Zhang, Changrui Liao*, Jian Tang, Zhiyong Bai, Kuikui Guo, Maoxiang Hou, Jun He, Ying Wang, Shen Liu, Feng Zhang, and Yiping Wang*, High-sensitivity gas-pressure sensor based on fiber-tip PVC diaphragm Fabry-Pérot interferometer, Journal of Lightwave Technology 35(18), 4067-4071, 2017.

[185]Guolu Yin, Jian Tang, Changrui Liao, Jun He, Bing Sun, Guanjun Wang, and Yiping Wang*, Determination of optical fiber parameters based on fiber gratings and a search procedure, Journal of Lightwave Technology 35(16), 3591-3596, 2017.

[186]Jianfeng Ban, Linjiang Zhu, Shaojun Chen*, and Yiping Wang*, The effect of liquid crystal fillers on structure and properties of liquid crystalline shape memory polyurethane composites II: 4-hexadecyloxy benzoic acid, Journal of Materials Science 52(5), 2628-2641, 2017.

[187]Xizhen Xu, Ying Wang*, Shen Liu, Changrui Liao, Jun He, Jiarong Lian, and Yiping Wang*, Growth dynamics of ZnO nanowire on a fiber-tip air bubble, Optical Materials Express 25(18), 3433-3440, 2017.

[188]Feng Zhu†, Zhe Zhang†, Changrui Liao*, Ying Wang, Lei Xu, Jun He, Chao Wang, Zhengyong Li, Tianhang Yang, and Yiping Wang, Taper embedded phase-shifted fiber Bragg grating fabricated by femetosecond laser line-by-line inscription, IEEE Photonics Journal 9(5), 7105307, 2017.

[189]Jian Tang, Zhe Zhang, Guolu Yin, Shen Liu, Zhiyong Bai, Zhengyong Li, Mi Deng, Ying Wang, Changrui Liao, Jun He, Wei Jin, Gang-Ding Peng, and Yiping Wang*, Long period fiber grating inscribed in hollow-core photonic bandgap fiber for gas pressure sensing, IEEE Photonics Journal 9(5), 7105307, 2017.

[190]Mingquan Li, Zhiyong Bai, Feng Zhang, Maoxiang Hou, Ying Wang, Changrui Liao, Wei Jin, and Yiping Wang*, Red shift of side-polished fiber surface plasmon resonance sensors with silver coating and inhibition by gold plating, IEEE Photonics Journal 9(3), 7103913, 2017.

[191]Zhiyong Bai†, Mi Deng†, Shen Liu, Zhe Zhang, Jinshan Xu, Jian Tang, Ying Wang, Changrui Liao, and Yiping Wang*, Torsion sensor with rotation direction discrimination based on a pre-twisted in-fiber Mach-Zehnder interferometer, IEEE Photonics Journal 9(3), 7103708, 2017.

[192]Zhiyong Bai, Shecheng Gao, Mi Deng, Zhe Zhang, Mingquan Li, Feng Zhang, Changrui Liao, Ying Wang, and Yiping Wang*, Bidirectional bend sensor employing a microfiber-assisted U-shaped Fabry- Perot cavity, IEEE Photonics Journal 9(3), 7103408, 2017.

[193]Zhiyong Bai†, Mingquan Li†, Jing Zhao, Shaoqing Cao, Ying Wang, Changrui Liao, and Yiping Wang*, Influence of side-polished fiber surface topography on surface plasmon resonance wavelengths and the full width at half-maximum, IEEE Photonics Journal 9(2), 4800513, 2017.

[194]Zhe Zhang, Changrui Liao*, Jian Tang, Ying Wang, Zhiyong Bai, Zhengyong Li, Kuikui Guo, Mi Deng, Shaoqing Cao, and Yiping Wang, Hollow-core-fiber-based interferometer for high-temperature measurements, IEEE Photonics Journal 9(2), 7101109, 2017.

[195]Bing Sun*, Wei Wei, Changrui Liao, Lin Zhang, Zuxing Zhang, Ming-Yang Chen, and Yiping Wang, Automatic arc discharge-induced helical long period fiber gratings and its sensing applications, IEEE Photonics Technology Letters 28(12), 1282-1285, 2016.

[196]Jing Zhao, Shaoqing Cao, Changrui Liao, Ying Wang, Guanjun Wang, Xizhen Xu, Cailing Fu, Guiwen Xu, Jiarong Lian, and Yiping Wang*, Surface plasmon resonance refractive sensor based on silver-coated side-polished fiber, Sensors and Actuators B-Chemical 230, 206-211, 2016.

[197]Zhengyong Li, Changrui Liao, Jun Song, Ying Wang, Feng Zhu, Yiping Wang*, and Xiaopeng Dong, Ultrasensitive magnetic field sensor based on an in-fiber Mach–Zehnder interferometer with a magnetic fluid component, Photonics Research 4(5), 197-201, 2016.

[198]Jun He, Yiping Wang*, Changrui Liao, Chao Wang, Shen Liu, Kaiming Yang, Ying Wang, Xiaocong Yuan, Guo Ping Wang, and Wenjing Zhang, Negative-index gratings formed by femtosecond laser overexposure and thermal regeneration, Scientific Reports 6, 23379, 2016.

[199]Maoxiang Hou, Feng Zhu, Ying Wang*, Yiping Wang*, Changrui Liao, Shen Liu, and Peixiang Lu. Antiresonant reflecting guidance mechanism in hollow-core fiber for gas pressure sensing, Optics Express 24( 24), 27890-27898, 2016.

[200]Congzhe Zhang, Yuanhong Yang, Chao Wang, Changrui Liao*, and Yiping Wang*, Femtosecond-laser- inscribed sampled fiber Bragg grating with ultrahigh thermal stability, Optics Express 24(4), 3981-3988, 2016.

[201]Jinpeng Liu, Changjun Min*, Ting Lei, Luping Du, Yangsheng Yuan, Shibiao Wei, Yiping Wang, and Xiaocong Yuan*, Generation and detection of broadband multi-channel orbital angular momentum by micrometer-scale meta-reflect array, Optics Express 24(1), 212-218, 2016.

[202]Bing Sun*, Wei Wei, Chao Wang, Changrui Liao, Jing Xu, Hongdan Wan, Lin Zhang, Zuxing Zhang, and Yiping Wang*, Solid optical fiber with tunable bandgaps based on curable polymer infiltrated photonic crystal fiber, Journal of Lightwave Technology 34(24), 5616-5619, 2016.

[203]Jianfeng Ban, Linjiang Zhu, Shaojun Chen*, and Yiping Wang*, The Effect of 4-Octyldecyloxybenzoic acid on liquid-crystalline polyurethane composites with triple-shape memory and self-healing properties, Materials 9(9), 1-17, 2016.

[204]Jianfeng Ban, Linjiang Zhu, Shaojun Chen*, and Yiping Wang*, The impact of liquid crystal fillers on structure and properties of liquid-crystalline shape-memory polyurethane composites I: 4-dodecyloxy benzoic acid, Journal of Materials Science 51(22), 10229-10244, 2016.

[205]Bing Sun*, Zuxing Zhang, Wei Wei, Chao Wang, Changrui Liao, Lin Zhang, and Yiping Wang*, Unique temperature dependence of selectively liquid-crystal-filled photonic crystal fibers, IEEE Photonics Technology Letters 28(12), 1282-1285, 2016.

[206]Maoxiang Hou, Ying Wang*, Shuhui Liu, Zhihua Li, and Peixiang Lu, Multi-components interferometer based on partially filled dual-core photonic crystal fibe for temperature and strain sensing, IEEE Sensors Journal 16(16), 6192-6196, 2016.

[207]Changrui Liao†, Qiao Wang†, Lei Xu, Shen Liu, Jun He, Jing Zhao, Zhengyong Li, and Yiping Wang*, D-shaped fiber grating refractive index sensor induced by an ultrashort pulse laser, Applied Optics 55(7), 1525-1529, 2016.

[208]Guolu Yin, Jian Tang, Changrui Liao, and Yiping Wang*, Automatic arc discharge technology for inscribing long period fiber gratings, Applied Optics 55(14), 3873-3878, 2016.

[209]Jiangtao Zhou, Yiping Wang*, Changrui Liao, Guolu Yin, Bing Sun, Zhengyong Li, Jun He, Guanjun Wang, Xiaoyong Zhong, and Jing Zhao, Intensity-modulated refractive index sensor based on optical fiber Michelson interferometer, Sensors and Actuators B-Chemical 208, 315-319, 2015.

[210]Shen Liu†, Kaiming Yang†, Yiping Wang*, Junle Qu*, Changrui Liao, Jun He, Zhengyong Li, Guolu Yin, Bing Sun, Jiangtao Zhou, Guanjun Wang, Jian Tang, and Jing Zhao, High sensitivity strain sensor based on in-fiber rectangular air bubble, Scientific Reports 5, 7624, 2015.

[211]Jun He, Yiping Wang*, Changrui Liao, Qiaoni Wang, Kaiming Yang, Bing Sun, Guolu Yin, Shen Liu, Jiangtao Zhou, and Jing Zhao, Highly birefringent phase-shifted fiber Bragg gratings inscribed with femtosecond laser, Optics Letters 40(9), 2008-2011, 2015.

[212]Xiaoyong Zhong, Yiping Wang*, Changrui Liao, Shen Liu, Jian Tang, and Qiao Wang, Temperature- insensitivity gas pressure sensor based on inflated long period fiber grating inscribed in photonic crystal fiber, Optics Letters 40(8),1791-1794, 2015.

[213]Bing Sun, Yijian Huang, Shen Liu, Chao Wang, Jun He, Changrui Liao, Guolu Yin, Jing Zhao, Yinjie Liu, Jian Tang, Jiangtao Zhou, and Yiping Wang*, Asymmetrical in-fiber Mach-Zehnder interferometer for curvature measurement, Optics Express 23(11), 14596, 2015.

[214]Bing Sun, Yiping Wang*, Junle Qu*, Changrui Liao, Guolu Yin, Jun He, Jiangtao Zhou, Jian Tang, Shen Liu, Zhengyong Li, and Yingjie Liu, Simultaneous measurement of pressure and temperature by employing Fabry-Perot interferometer based on pendant polymer droplet, Optics Express 23(3), 1906- 1911, 2015.

[215]Zhengyong Li, Changrui Liao, Yiping Wang*, Lei Xu, Dongning Wang, Xiaopeng Dong, Shen Liu, Qiao Wang, Kaiming Yang, and Jiangtao Zhou, Highly-sensitive gas pressure sensor using twin-core-fiber based in-line Mach-Zehnder interferometer, Optics Express 23(5), 6673-6678, 2015.

[216]Jun He, Changrui Liao, Kaiming Yang, Shen Liu, Bing Sun, Guolu Yin, Jiangtao Zhou, Jing Zhao, and Yiping Wang*, High-sensitivity temperature sensor based on a coated single-mode fiber loop, Journal of Lightwave Technology 33(19), 4019-4026, 2015.

[217]Jing Zhao, Guolu Yin, Changrui Liao, Shen Liu, Jun He, Bing Sun, Guanjun Wang, Xizheng Xu, and Yiping Wang*, Rough side-polished fiber with surface scratches for sensing applications, IEEE Photonics Journal 7(3), 6801107, 2015.

[218]Bing Sun, Yijian Huang, Dan Luo, Chao Wang, Jun He, Changrui Liao, Guolu Yin, Jiangtao Zhou, Shen Liu, Jing Zhao, and Yiping Wang*, Broadband thermo-optic switching effect based on liquid crystal infiltrated photonic crystal fibers, IEEE Photonics Journal 7(4), 6802207, 2015.

[219]Jian Tang, Guolu Yin, Shen Liu, Xiaoyong Zhong, Changrui Liao, Zhengyong Li, Qiao Wang, Jing Zhao, Kaiming Yang, and Yiping Wang*, Gas pressure sensor based on CO2-laser-induced long-period fiber grating in air-core photonic bandgap fiber, IEEE Photonics Journal 7(5), 6803107, 2015.

[220]Jian Tang, Guolu Yin, Changrui Liao, Shen Liu, Zhengyong Li, Xiaoyong Zhong, Qiao Wang, Jing Zhao, Kaiming Yang, and Yiping Wang*, High-sensitivity gas pressure sensor based on Fabry-Perot interferometer with a side opened channel in hollow-core photonic bandgap fiber, IEEE Photonics Journal 7(6), 6803307, 2015.

[221]Cailing Fu†, Xiaoyong Zhong†, Changrui Liao*, Yiping Wang*, Ying Wang, Jian Tang, Liu Shen, and Qiao Wang, Thin-core-fiber-based long-period fiber grating for high-sensitivity refractive index measurement, IEEE Photonics Journal 7(6), 7103208, 2015.

[222]Kaiming Yang, Jun He, Ying Wang, Shen Liu, Changrui Liao, Zhengyong Li, Guolu Yin, Bing Sun, and Yiping Wang*, Ultrasensitive temperature sensor based on a fiber Fabry-Perot interferometer created in a mercury-filled silica tube, IEEE Photonics Journal 7(7), 6803509, 2015.

[223]Guolu Yin, Yiping Wang*, Changrui Liao, Bing Sun, Yingjie Liu, Shen Liu, Qiao Wang, Kaiming Yang, Jian Tang, and Xiaoyong Zhong, Simultaneous refractive Index and temperature measurement with LPFG and liquid-filled PCF, IEEE Photonics Technology Letters 27(4), 375-378, 2015.

[224]Guanjun Wang, Chao Wang, Jing Zhao, Changrui Liao, Shen Liu, Xizhen Xu, Haijian Liang, and Yiping Wang*, Side-opened suspended core fiber-based surface plasmon resonance sensor, IEEE Sensors Journal 15(7), 4086-4092, 2015.

[225]Bing Sun, Yiping Wang*, Yingjie Liu, Shen Liu, Changrui Liao, and Ming-Yang Chen, Compact device employed a hybrid plasmonic waveguide for polarization-selective splitting, Optics Communications 334, 240-246, 2015.

[226]Xizhen Xu, Jian Tang, Jing Zhao, Kaiming Yang, Cailing Fu, Qiao Wang, Shen Liu, Changrui Liao, Jiarong Lian, and Yiping Wang*, Post-treatment techniques for enhancing mode-coupling in long period fiber gratings induced by CO2 laser, Photonic Sensors 5(4), 339-344, 2015.

[227]Zhengyong Li, Yiping Wang*, Changrui Liao, Shen Liu, Jiangtao Zhou, Xiaoyong Zhong, Yingjie Liu, Kaiming Yang, Qiao Wang, and Guolu Yin, Temperature-insensitive refractive index sensor based on in-fiber Michelson interferometer, Sensors and Actuators B-Chemical 199, 31-35, 2014.

[228]Xiaoyong Zhong, Yiping Wang*, Junle Qu*, Changrui Liao, Shen Liu, Jian Tang, Qiao Wang, Jing Zhao, Kaiming Yang, and Zhengyong Li, High-sensitivity strain sensor based on inflated long period fiber grating, Optics Letters 39(18), 5463-5466, 2014.

[229]Zhengyong Li, Changrui Liao, Yiping Wang*, Xiaopeng Dong, Shen Liu, Kaiming Yang, Qiao Wang, and Jiangtao Zhou, Ultrasensitive refractive index sensor based on a Mach–Zehnder interferometer created in twin-core fiber, Optics Letters 39(17), 4982-4985, 2014.

[230]Changrui Liao, Shen Liu, Lei Xu, Chao Wang, Yiping Wang*, Zhengyong Li, Qiao Wang, and D. N. Wang, Sub-micron silica diaphragm based fiber-tip Fabry-Perot interferometer for pressure measurement, Optics Letters 39(10), 2827-2830, 2014.

[231]Yingjie Liu, Yiping Wang*, Bing Sun, Changrui Liao, Jun Song, Kaiming Yang, Guanjun Wang, Qiao Wang, Guolu Ying, and Jiangtao Zhou, Compact tunable multibandpass filters based on liquid-filled photonic crystal fibers, Optics Letters 39(7), 2148-2151, 2014.

[232]Shen Liu, Yiping Wang*, Changrui Liao, Zhengyong Li, Qiao Wang, Jiangtao Zhou, Kaiming Yang, Xiaoyong Zhong, Jing Zhao, and Jian Tang, High-sensitivity strain sensor based on in-fiber improved Fabry-Perot interferometer, Optics Letters 39(7), 2121-2124, 2014.

[233]Jiangtao Zhou, Changrui Liao, Yiping Wang*, Guolu Yin, Xiaoyong Zhong, Kaiming Yang, Bing Sun, Guanjun Wang, and Zhengyong Li, Simultaneous measurement of strain and temperature by employing fiber Mach-Zehnder interferometer, Optics Express 22(2), 1680-1686, 2014.

[234]Xiaoyong Zhong, Yiping Wang*, Changrui Liao, Guolu Yin, Jiangtao Zhou, GuanjunWang, Bing Sun and Jian Tang, Long period fiber gratings inscribed with an improved two-dimensional scanning technique, IEEE Photonics Journal 6(4), 2201508, 2014.

[235]Jiangtao Zhou, Yiping Wang*, Changrui Liao, Guolu Yin, Xi Xu, Kaiming Yang, Xiaoyong Zhong, Qiao Wang, and Zhengyong Li, Intensity-modulated strain sensor based on fiber in-line Mach–Zehnder interferometer, IEEE Photonic Technology Letter 26(5), 508-511, 2014.

[236]Guolu Yin, Yiping Wang*, Changrui Liao, Jiangtao Zhou, Xiaoyong Zhong, Guanjun Wang, Bing Sun, and Jun He, Long period fiber gratings inscribed by periodically tapering a fiber, IEEE Photonic Technology Letters 26(7), 698-701, 2014.

[237]C. R. Liao*, H. F. Chen, and D. N. Wang, Ultracompact optical fiber sensor for refractive index and high-temperature measurement, Journal of Lightwave Technology 32(14), 2531-2535, 2014.

[238]Chao Wang, Wa Jin, Changrui Liao, Jun Ma, Wei Jin*, Fan Yang, Hoi Lut Ho, and Yiping Wang, Highly birefringent suspended-core photonic microcells for refractive-index sensing, Applied Physics Letters 105(6), 061105-1-4, 2014.

[239]Wa Jin, Haifeng Xuan, Chao Wang, Wei Jin*, and Yiping Wang, Robust microfiber photonic microcells for sensor and device applications, Optics Express 22(23), 28132-28141, 2014.

[240]Fan Yang, Wei Jin*, Yingchun Cao, Hoi Lut Ho, and Yiping Wang, Towards high sensitivity gas detection with hollow-core photonic bandgap fibers, Optics Express 22(20), 24894-24907, 2014.

[241]Tao Chen, Changrui Liao, D. N. Wang*, and Yiping Wang, Polarization-locked vector solitons in a mode-locked fiber laser using polarization-sensitive few-layer graphene deposited D-shaped fiber saturable absorber, Journal of Optical Society of America B 31(6), 1377-1382, 2014.

[242]Tao Chen, Liao Changrui, D. N. Wang*, and Yiping Wang, Passively mode-locked fiber laser by using monolayer chemical vapor deposition of graphene on D-shaped fiber, Applied Optics 53(13), 2828-2832, 2014.

[243]Changrui Liao, Lei Xu, Chao Wang, D. N. Wang, Yiping Wang*, Qiao Wang, Kaiming Yang, Zhengyong Li, Xiaoyong Zhong, Jiangtao Zhou, and Yingjie Liu, Tunable phase-shifted fiber Bragg grating based on femtosecond laser fabricated in-grating bubble, Optics Letters 38(21), 4473-4476, 2013.

[244]C. R. Liao, D. N. Wang*, and Ying Wang, Microfiber in-line Mach-Zehnder interferometer for strain sensing, Optics Letters 38(5), 757-759, 2013.

[245]Yiping Wang*, Changrui Liao, Xiaoyong Zhong, Jiangtao Zhou, Yingjie Liu, Zhengyong Li, Guanjun Wang, and Kaiming Yang, Long period fiber gratings written in photonic crystal fibers by use of CO2 laser, Photonic Sensors 3(3), 193-201, 2013.

[246]Yiping Wang*, Changrui Liao, Jiangtao Zhou, Yinjie Liu, Zhengyong Li, and Xiaoyong Zhong, Fabrications and applications of fiber gratings based on microstructured optical fibers, Journal of Shenzhen University Science and Engineering 30, 23-29, 2013.

[247]Yiping Wang*, H. Bartelt, M. Becker, S. Brueckner, J. Bergmann, J. Kobelke, and M. Rothhardt, Fabrications of fiber Bragg gratings written in photonic crystal fibers, Sensor Letters 10(7), 1382-1386, 2012.