一、教育经历

1991--1995:英国伦敦城市大学光学博士

1990--1991:英国布鲁内尔大学访问学者

1989--1990:英国雷丁大学访问学者

1988--1989:英国阿尔斯特大学工商管理硕士

1978--1982:北京邮电大学电信学士

二、工作经历

2022---至今深圳技术大学城市交通与物流学院特聘教授

2015—2022中国计量学院 光学与电子科技学院 特聘教授

1998—2015香港理工大学电机工程系讲师，助理教授，副教授

1997--1998:中国移动香港公司高级工程师

1996--1997:香港中文大学电子系博士后研究员

1982--1988:广东邮电设计院工程师

其中2017年6月至12月：深圳大学光电学院 深圳市鹏城学者特聘教授

三、主要研究方向

飞秒激光光纤微加工（用于制作光纤微结构，光纤器件及微纳光纤器件）

光纤传感

飞秒光纤激光器

四、研究成果

SCI论文 〉>290篇；

美国专利：7项;中国发明专利：15项

国际学术杂志编委

Photonic Sensors(SCI收录)

专业学会会员

国际电气与电子工程师学会高级会员(IEEE Senior Member)

美国光学学会高级会员 (OSA Senior Member)

国际会议主席

2018年第7届亚洲通信与光子学会议 技术委员会主席

Asia Communications and Photonics Conference (ACP2018)

Oct.26-29, 2018, Hangzhou, China

2017年第16届国际光通信与网络会议主席

Conference General Chair，The 16th International Conference on Optical Communications and Networks (ICOCN)

August 7-10, 2017,Wuzhen, P. R. China

2016年第15届国际光通信与网络会议主席

Conference General Chair，The 16th International Conference on Optical Communications and Networks (ICOCN)

Sep.24-27, 2016, Hangzhou, P. R. China

2013年第4届亚太光学传感器会议共同主席物理传感分会主席

Co-Chair of the Conference & Chair of the Physical Sensing Sub-committee，

The 4th Asia-Pacific Optical Sensors Conference (APOS 2013)

15-18 October, 2013, Wuhan, China

国际会议委员会委员

2018年第7届亚太光学传感器会议 技术委员会委员

The7th Asia-Pacific Optical Sensors Conference (APOS2018),

May 28-31,2018，Matsue City, Shimane, Japan

2016年第6届亚太光学传感器会议物理传感分会共同主席

The6th Asia-Pacific Optical Sensors Conference (APOS2016),

Oct. 11-14,2016,Shanghai, P. R. China

2015年第5届亚太光学传感器会议 技术委员会委员

The 5th Asia-Pacific Optical Sensors Conference (APOS2015),

20-22 May 2015, Jeju Island, Korea

2013年第4届亚太光学传感器会议 技术委员会委员

Technical Committee Member

The 4th Asia-Pacific Optical Sensors Conference

2010 (APOS2013), 15-18 October, 2013, Wuhan, P. R. China

2013年美国光学学会光学传感器专题会议 技术委员会委员

Technical Committee Member of Optical Society of America Topic Meeting: Optical Sensors (Sensors), 14-19 July 2013, Rio Mar Beach Resort, Rio Grande, Puerto Rico

2012年美国光学学会光学传感器专题会议 技术委员会委员

Technical Committee Member of Optical Society of America Topic Meeting: Optical Sensors (Sensors), 24-28 June 2012, Monterey, California, USA

国际会议特邀报告

2017年第9届国际信息光学与光子学

Title：“Miniature lab on/in optical fiber”

9th International Conference on Information Optics and Photonics (CIOP 2017)

17-20July 2017,Harbin, China

2015年 亚洲激光论坛

“Femtosecond laser micromachining on optical fiber”

Asia Laser Forum,May 7-9, 2015, Shenzhen, China

2014年美国光学学会光学传感器专题会议

Title: “Miniature optical fiber sensors based on inner air-cavity”

Optical Society of America Topic Meeting: Optical Sensors (Sensors), 27-31 July 2014, Barcelona, Spain

2013年第4届亚太光学传感器会议(APOS2013)

Title:“Miniature and versatile optical fiber sensing devices”

The 4th Asia-Pacific Optical Sensors Conference

2010 (APOS2013), 15-18 October, 2013, Wuhan, China

2013年中国国际光电博览会（CIOE）光纤传感与光纤激光器国际研讨会

Title: “Femtosecond laser micromachining and its applications in opticalfiber sensing”“飞秒激光微加工及其光纤传感应用”

China International Optoelectronic Conference (CIOEC) 2013 –

International Seminar 2013 on Fiber Lasers and Fiber Sensors

September 4-5, 2013, Shenzhen, China

2012年美国光学学会光学传感器专题会议

Title: “Micro engineered optical fiber sensor by use of femtosecond laser micromachining”

Optical Society of America Topic Meeting: Optical Sensors (Sensors), 24-28 June 2012, Monterey, California, USA

2011年 第四届国际光子与光电子学会议（POEM 2011）

Title: “Micro-structures created in optical fiber by femtosecond laser micromachining and their applications”

The 4th International Photonics and OptoElectronics Meetings (POEM), November 2-6, 2011, Wuhan, P. R. China.

奖项

2008年香港理工大学工程学院研究奖

2017年深圳市自然科学一等奖，“光纤微结构器件的制备方法及传感机理研究”

（王义平，廖长锐，何俊，王东宁，靳伟）

主持或参加科研项目（课题）情况

1.自然科学基金面上项目，61975192,飞秒激光制备新型高温光纤传感器，2020/01-2024/12，直接经费59万元，在研，主持。

2.澳门科学技术发展基金-国家自然科学基金国际合作项目，61661166009，飞秒激光制备微型光纤线上/线内实验室及其传感应用，2017/01-2019/12，199.56万元，结题，主持。

3.自然科学基金面上项目，61377094,基于内置微腔的单微纳光纤干涉型传感器研究，2014/01-2017/12，80万元， 结题，主持。

4.国家重点研发计划“国家质量基础的共性技术研究与应用”重点专项课题，时间频率基准及其传递技术研究—高稳定光纤光梳及应用研究(2016YFF0200204) 2016-2020，20万元，结题，主持。

1999年12月至2002年10月 香港研究资助局优配研究金 (PolyU 5109/99E)

“Multiplexing by the use of tunable optical pulse sources” HK$404,998

2006 年11月至2009年4月 香港研究资助局优配研究金 (PolyU 5296/06E) HK$465,999

“High temperature sustainable Fiber Bragg grating-based sensors using high power femtosecond laser pulses”

2008年1月至2010年6月 香港研究资助局优配研究金 (PolyU 5291/07E) HK$525,645

“Long period gratings inscribed in microstructured optical fibers by use of femtosecond laser irradiation for multi-parameter sensing with reduced cross-sensitivity”

2009年1月至2011年6月 香港研究资助局优配研究金 (PolyU 5306/08E) HK$457,689

“Development of micro-hole structured long period gratings by use of femtosecond laser micromaching”

2011年1月至2013年6月 香港研究资助局优配研究金 (PolyU 5298/10E) HK$785,114

Fiber Bragg Gratings Fabricated in Optical Micro/Nanofibers by Use of Femtosecond Laser Pulses for Sensor Applications

2015年1月至2017年12月 香港研究资助局优配研究金 (PolyU 152163/14E) HK$500,000

Fiber in-line interferometer based on internal mirror for sensor use

近5年SCI国际杂志论文（Science Citation Index (SCI) Journal Publications）

2019

1.Fan Yang, Z. K. Wang* and D. N. Wang*, “A highly sensitive optical fiber strain sensor based on cascaded multimode fiber and photonic crystal fiber”,Optical Fiber Technology, Vol.47, pp.102-106, 2019

2.Tianyu Zhu, Zhaokun Wang*, D. N. Wang*, Fan Yang and Liujiang Li, “Observation of Controllable Tightly and Loosely Bound Solitons with An All-Fiber Saturable Absorber”,Photonics Research, Vol.7, No.1, pp.61-68, January, 2019

3.H.F. Chen,Q.J. Jiang,Y.Q. Qiu,X.C. Chen,B. Fan,Y. Wang*,D.N. Wang*, “A hollow core photonics crystal fiber based miniaturized sensor for detection of aggregation-induced emission molecules”,Analytical Chemistry, Vol. 91, pp.780-784, 2019 (DOI:10.1021/acs.analchem.8b03219)

4.Zhaokun Wang, Liujiang Li, D.N. Wang*,Zichun Le, Shuqin Zhang, Shiying Cao and Zhanjun Fang, “Generation ofpulse-width controllabledissipative solitons and bound solitons byusingall fiber saturable absorber”,Optics Letters,Vol.44, No.3, pp.570-573, 1 February, 2019

5.Hua Zhang and D. N. Wang*, “In-line reflective Mach-Zehnder interferometer based on tilted in-fiber beam splitter”,Optics Letters,Vol.44, No.4, pp.803-806,15 February, 2019

6.Jun Deng and D. N. Wang*, “Construction of cascaded Fabry-Perot interferometers by four in-fiber mirrors for high-temperature sensing”,Optics Letters,Vol.44, No.5, pp.1289-1292, 1 March 2019

7.Liujiang Li,Zhaokun Wang*, D. N. Wang*, and Fan Yang, “L-band tunable and dual wavelength mode locked fiber laser withNCF-GIMFbasedSA”,IEEE Photonics Technology Letters,Vol.31, No.8, pp.647-650, April 15, 2019

8.Qiaohan Wang, D. N. Wang*, and Hua Zhang, “Fiber Bragg grating withawaveguide fabricated in no-core fiber and multimode fiber”,Optics Letters, Vol.44, No.11, pp.2693-2696, 1 June 2019

9.Yixin Zhang, Ben Xu*, D. N. Wang*,Yi Li,Huaping Gong andZhaokun Wang, “High-resolution sensing system based on fiber Bragg grating Fabry-Perot interferometer and frequency-domain demodulation”,IEEE Sensors Journal, Vol.19, No.12, pp.4451-4457, 15 June 2019

10.Leyi Hou,ChunliuZhao, Ben Xu,Bangning Mao*, Changyu Shen,andD. N. Wang,“Highly sensitive PDMS-filled Fabry–Perot interferometer temperature sensor based ontheVernier Effect”,Applied Optics, Vol.58, No.18, pp.4858-4865, 20 June 2019

11.Fei Han, T. T. Lang, B. N. Mao, C. L. Zhao*, J. Kang, C. Y. Shen, D. N. Wang, “Surface plasmon resonance sensor based on coreless fiber for high sensitivity”,Optical Fiber Technology, Vol.50, pp.172-176, July 2019

12.Hua Zhang, D. N. Wang*, Z. K. Wang, Ben Xu, C. L. Zhao, Shuqin Zhang and Jianqing Li,“AMach-Zehnder interferometer based on a no-corefiber with in-fiber waveguides”,IEEE Photonics Technology Letters,Vol.31, No.13, pp.1084-1087, 1 July 2019

13.Tianyu Zhu, Zhaokun Wang*, D. N. Wang*, Fan Yang and Liujiang Li, “Generation of wavelength-tunable and coherent dual-wavelength solitonsin C+L bandby controlling theintracavity loss”,Photonics Research, Vol.7, No.8, pp.853-861, August, 2019

14.Jun Deng and D. N. Wang*, “Ultra-sensitive Strain Sensor Based on Femtosecond Laser Inscribed In-fiber Reflection Mirrors and Vernier Effect”,IEEE Journal of Lightwave Technology, Vol.37, No.19, pp.4935-4939, October 1, 2019

15.Zhaokun Wang, Jikai Chen, Tianyu Zhu, D. N. Wang* and Feng Gao, “Graded index fiber asanall-fiber saturable absorber for large energyconventional soliton and dissipative soliton generation”,Photonics Research,Vol.7, No.11, pp.1214-1220, November, 2019

16.Qiaohan Wang, Hua Zhang and D. N. Wang*, “Cascaded multiple Fabry–Perot interferometers fabricated in no-core fiber with a waveguide for high-temperature sensing”,Optics Letters, Vol.44, No.21, pp.5145-51448, 1 November,2019

17.Jun Deng D. N. Wang* and Hua Zhang, “Femtosecond Laser Inscribed Multiple In-fiber Reflection Mirrors for High-temperature Sensing”,IEEE Journal of Lightwave Technology, Vol.37, No.21, pp.5537-5541, November 1, 2019

18.Ben Xu, Ran Chang, Ping Li, D. N. Wang*, Chun-liu Zhao, Jianqing Li, Minghong Yang, and Lingze Duan, “Reflective optical fiber sensor based on light polarization modulation for hydrogen sensing”,Journal of Optical Society of America B,Vol.36, No.12, pp.3471-3478, December2019

2020

19.X. L. Cui, Hua Zhang and D. N. Wang*, “Parallel structured optical fiber in-line Fabry-Perot interferometers for high temperature sensing”,Optics Letters, Vol.45, No.3, pp.726-729, 1 February 2020

20.X. Q. Bai and D. N. Wang*, “An in-fiber coupler for whispering-gallery-mode excitation in a microsphere resonator”,IEEE Photonics Technology Letters,Vol.32, No.4, pp.188-191, February 15, 2020

21.Jikai Chen, Zhaokun Wang, Liujiang Li,D. N. Wang*,Tianyu Zhu, Feng Gao,Shiying Cao and Zhanjun Fang,“GIMF-based SA for generation of high pulse energy ultrafast solitons in a mode-locked linear-cavity fiber laser”,IEEE Journal of Lightwave Technology, Vol.38, No.6, pp.1480-1485, March 15, 2020

22.Xin Liu, X. L. Cui and D. N. Wang*, “Integrated in-fiber coupler for whispering-gallery mode microsphere resonator”,Optics Letters, Vol.45, No.6, pp.1467-1470, 15 March 2020

23.Y. D. Niu, D. N. Wang*, Q. H. Wang, Z. K. Wang and ShuqinZhang,“Cascaded multiple Fabry–Perot interferometers fabricated in multimode fiber with a waveguide”,Optical Fiber Technology, Vol.58, 102306, September 2020

24.X. L. Cui and D. N. Wang*, “Fiber in-line interferometer based on air-cavity with suspended fiber-core for sensing”,Measurement Science and Technology, Vol.31, No.10, 105103, October 2020

25.Hua Zhang, D. N. Wang*, B. M. A. Rahman, “Parallel structured fiber in-line multipleFabry-Perot cavities for high temperature sensing”,Sensors & Actuators:A.Physical,Vol.313, 112214, 1 October 2020

26.Jiali Li, Bangning Mao, Ben Xu, Changyu Shen, Rui Xu, Lin Wang, Dongning Wang, and Chunliu Zhao, “PDMS-filled Fabry-Perot interferometer based multipoint temperature measurement using an ArrayWaveguide Gratin”,Applied Optics, Vol.59, No.31, pp.9773-9779, 1 November 2020

27.Jikai Chen, D. N. Wang* and Zhaokun Wang, “Wavelength-switchable multiple type bound solitons in a passively mode-locked Er-doped fiber laser”,IEEE Photonics Technology Letters,Vol.32, No.22, pp.1447-1450, November 15, 2020

28.Qi Chen, D. N. Wang*, Feng Gao, Q. H. Wang and Y. D. Niu, “Optical fiber surface waveguide with Fabry-Perot cavity for sensing”,Optics Letters, Vol.45, No.22, pp.6186-6189, November 15, 2020

29.Ben Xu, F. P. Zhao, D. N. Wang*, Chun-liu Zhao, Jianqing Li, Minghong Yang, and Lingze Duan,“Tip hydrogen sensor based on liquid filled in-fiber Fabry-Perot interferometer with Pt-loaded WO₃coating”,Measurement Science and Technology,Vol.31, No.12, 125107, December 2020

2021

30.Qiaohan Wang, Xin Liu and D. N. Wang*, “Ultra-sensitive gas pressure sensor based on vernier effect with controllable amplification factor”,Optical Fiber Technology,Vol.61, 102404, January 2021

31.Zhaokun Wang, Wendi Wu, Tianyu Zhu, Kuo Hua, Shuo Chang, D. N. Wang, and Feng Gao, “High-power synchronous multi-wavelength solitons from a multimode mode-locked fiber laser system”,Optics Letters, Vol.46, No.1, pp.118-121, January 1, 2021

32.Y. D. Niu, Q. Chen, Chunliu Zhao and D. N. Wang*, “Highly sensitive optical fiber bending sensor based on hollow core fiber and single mode fiber”,Optik, Vol.228, 166209, February 2021

33.Ju Gu, Yudi Li, Huifang Chen*, Yi Wang,*, Chunliu Zhao, Dongning Wang, “A durable and miniature microfluid device for detection of aggregation-induced emission molecules” Microchemical Journal, Vol.163, 105921, 2021

34.Yingfang Zhang, Ben Xu*, Dongning Wang, Yun Guo, Min Chen, Weicheng Chen, Penglai Guo, Xiaoling Peng and Jianqing Li, “Vibration Sensor Based onHollow Biconical Fiber”,Sensors, Vol.21, 1023, February 2021

35.Huifang Chen, Fei Han, Bangning Mao, Ju Gu, Yudi Li, Chunliu Zhao,* Yi Wang, Dongning Wang, and Jing Zhan, “Rapid and label free detection of aflatoxin B1 in alcoholic beverages with a microfluid fiber device”,Applied Optics, Vol.60, No.7, pp.1924-1929, March 1, 2021

36.D. N. Wang*, X. L. Cui, Hua Zhang and Jun Deng, “Ultrasensitive strain sensing by using two parallel structured Fabry-Perot interferometers in cascaded connection”,IEEE Journal of Lightwave Technology, Vol.39, No.5, pp.1504-1508, March 1, 2021

37.Qi Chen, D. N. Wang*, and Feng Gao, “Simultaneous refractive index and temperature sensing based on fiber surface waveguide and fiber Bragg gratings”,Optics Letters, Vol.46, No.6, pp.1209-1212, 15 March, 2021

38.Shuo Chang, Zhaokun Wang*, D. N. Wang, Wendi Wu, Feng Gao, “NCF-GIMF device as SA and filter utilized in tunable single- and dual-wavelength Yb-doped mode-locked fiber laser”,Optics Communications, Vol.483, 126612, 15 March 2021

39.Ben Xu, Min Chen, Kai Yang, Yun Guo, D. N. Wang*, Chun-liu Zhao, “Ultra-high sensitivity strain sensor based on biconical fiber with a bulge air-bubble”,Optics Letters, Vol.46, No.8, pp.1983-1986, 15 April, 2021

40.Xin Liu and D. N. Wang*, “Optical Dual-microsphere whispering-gallery-mode resonator coupled by a pair of tapered fibers”,Optik, Vol.242, 167187, 15 May 2021

41.Xin Li and D. N. Wang*, “A whispering-gallery mode microsphere resonator based on optical fiber with an open microcavity”,IEEE Journal of Lightwave Technology, Vol.39, No.11, pp.3466-3470, June 1, 2021

42.Kuo Hua and D. N. Wang*, “A whispering gallery mode microsphere resonator integrated with angle polished multimode fiber”,IEEE Journal of Lightwave Technology, Vol.39, No.12, pp.4049-4054, June 15, 2021

43.Xin Li, D. N. Wang* and Jikai Chen, “Saturable absorber based on a hybrid structure of graded-index multimode fiber and graphene for passive mode-locked erbium-doped fiber laser”,Journal of Optical Society of America B, Vol.38, No.7, pp.2112-2117, July 2021

44. Jing Yan, D. N. Wang* and Xin Li, “An erbium-doped whispering-gallery-mode microlaser for sensing”,IEEE Journal of Lightwave Technology, Vol.39, No.15, pp.5177-5182, August 1, 2021

45.Shuo Chang, Zhaokun Wang*, D.N. Wang, Tianyu Zhu, Kuo Hua, Feng Gao,“Tunable and dual-wavelength mode-locked Yb-doped fiber laser based on graded-index multimode fiber device”,Optics and Laser Technology,Vol.140, 107081, August 2021

46.Ben Xu, Yun Guo, Ran Chang, Min Chen, D. N. Wang*, Chun-Liu Zhao, Jianqing Li, and Minghong Yang, “Versatile interferometric sensor based on sandwiched grapefruit photonic crystal fiber”,IEEE Sensors Journal, Vol.21, No.16, pp.17875-17881, August 15, 2021

47.Kuo Hua, D. N. Wang*, Q. K. Xia and Jikai Chen, “Saturable absorber based on slightly tapered graded-index multimode fiber covered with graphene”,Optics Communications, Vol.494, 127063, 1 September 2021

48.D. N. Wang, “Review of femtosecond laser fabricated optical fiber high temperature sensors”,Chinese Optics Letters,Vol.19, No.9, 91204, September 2021 (Invited)

49.Kuo Hua and D. N. Wang*, “Coupling scheme for graphene saturable absorber in a linear cavity mode-locked fiber laser”,Optics Letters,Vol.46, No.17, pp.4362-4365, September 1, 2021

50.Qi Chen, Feng Gao*, Zhaokun Wang, Hailong Wang, D.N. Wang*, Shenghua Zhou,Guiming Pan, “Research of Microfiber Sensor Probe Integrated with Cascaded Fabry-Perot Interferometer”,Applied Optics, Vol.60, No.27, pp.8226-8230, September 20, 2021

51.Jing Yan, D. N. Wang*, Xin Liu and Jikai Chen, “A whispering-gallery-mode microlaser based on dual erbium-doped microspheres”,Optics and Laser Technology, Vol.142, 107254, October 2021

52.Yunpeng Ge, D. N. Wang*, and Kuo Hua, “Optical fiber in-line Mach-Zehnder interferometer based on an inner air-cavity with long cavity length”,IEEE Journal of Lightwave Technology, Vol.39, No.19, pp.6301-6307, October 1, 2021

53.Yunpeng Ge and D. N. Wang*, “Optical fiber interferometer based on inner air-cavity with an open channel for gas pressure sensing”,IEEE Photonics Technology Letters,Vol.33, No.21, pp.1201-1204, November 1, 2021

2022

54.Falong Lan and D. N. Wang*, “Long period fiber gratings based on inner microholes in optical fiber”, Optics Letters, Vol.47, No.1, pp.146-149, January 1, 2022

55.Jiaxin Li, D. N. Wang*, Jing Yan and Yunpeng Ge, “A reflective whispering gallery mode microsphere resonator in single-mode fiber”, IEEE Photonics Technology Letters, Vol.34, No.1, pp.31-34, January 1, 2022

56.Xin Liu, Qiaohan Wang and D. N. Wang*, “Ultra compact and sensitive optical fiber interferometric refractive index sensor”, Optik, Vol.254, 168642, 24 January 2022

57.Qiankun Xia and D. N. Wang*, “Optical fiber diffraction gratings”, IEEE Photonics Technology Letters, Vol.34, No.3, pp.177-180, February 1, 2022

58.Qi Chen, Feng Gao*, D. N. Wang*, Zhaokun Wang, “Electrically tunable optical filter based on tapered fiber coated with porous graphene film”,Optics Communications, Vol.505, 127518, 15 February 2022

59.Kuo Hua, D. N. Wang* and Qi Chen, “Passively mode-locked fiber laser based on graphene covered single-mode fiber with inner short waveguides”, Optics Communications, Vol.505, 127520, 15 February 2022

60.Zhuoli Zhou,Xinlei Cui,Huabiao Zhu,Changfeng Gu,Qinyong Dai,Yingquan Peng*,Sunan Xu,Lei Sun,Wenli Lv*,Dongning Wang*, “Vertical organic phototransistors realized by femtosecond laser ablation patterned metal/insulator bilayer source electrodes: Performance and numerical modeling”,Organic Electronics,Vol. 102, March 2022, 106437

61.Yudi Li, Minglu Li, Huifang Chen*, D. N. Wang*, Yi Wang and Chunliu Zhao, “A Microfluid Fiber Device for Trace Detection of Aggregation Induced Emission Molecules”, IEEE Sensors Journal, Vol.22, No.6, pp.5688-5694, March 15, 2022

62.Jing Yan, D. N. Wang*, Yunpeng Ge, Yun Guo and Ben Xu, “A humidity sensor based on a whispering-gallery-mode resonator with an L-shaped open microcavity”, IEEE Journal of Lightwave Technology, Vol.40, No.8, pp.2651-2656, April 15, 2022

63.Xin Li, D. N. Wang*, Kuo Hua, Qi Chen, Yunpeng Ge and Q. K. Xia, “Saturable absorber based on graphene for a hybrid passive mode-locked erbium-doped fiber laser”, Optical Fiber Technology, Vol.70, 102867, May 2022

64.Xiaowen Chao and D. N. Wang*, “Surface plasmon resonance sensor based on a tapered multimode fiber with a long inner air-cavity”, IEEE Photonics Technology Letters, Vol.34, No.15, pp.799-802, August 1, 2022

65.Qin Liang, Jinchao Tao, Xu Wang, Tianliang Wang, Xinyu Gao, Pengwei Zhou, Ben Xu, Chunliu Zhao, Juan Kang Le Wang, Changyu Shen, Dongning Wang, Yi Li*, “Demodulation of Fabry-Pérot sensors using random speckles”, Optics Letters, Vol.47, No.18, pp.4806-4809, 15 September 2022

66.Jianguo Wang, D. N. Wang*, Yunpeng Ge, Ben Xu, and Xiaodong Guo, “Optical fiberMach-Zehnder interferometer based on a pair of microholes”, Optical Fiber Technology, Vol.73, 103016, October 2022

67.J. W. Gao, Q. K. Xia and D. N. Wang*, “Fiber in-line Mach-Zehnder interferometer based on a pair of optical fiber diffraction gratings”, IEEE Photonics Technology Letters, Vol.34, No.20, pp.1096-1099, October 15, 2022

68.Binjie Jin and D. N. Wang*, “Multimode fiber surface plasmon resonance sensor based on a down-up taper”, Optics Letters, Vol.47, No.20, pp.5329-5332, 15 October, 2022

69.Jiaxin Li, D. N. Wang* and Xiaodong Guo, “Integrated in-fiber dual whispering gallery mode resonators device”, IEEE Photonics Technology Letters, Vol.34, No.21, pp.1119-1122, November 1, 2022

70.Xingshun Wu, Feng Gao*, Fei Jin*, D. N. Wang*, Ying Wang, Qi Chen, Hua Yang, Huaping Gong, Zhaokun Wang, Chunliu Zhao, Huan Liu, “Optical Fiber Humidity Sensor with C60-THAM as Molecule Receptors”, Sensors & Actuators: B. Chemical, Vol.370, 132344, 1 November 2022

71.Jiaxin Li and D. N. Wang*, “A highly robust microsphere whispering-gallery-mode resonator in multimode fiber”, Optik, Vol.270, 170015, November 2022

72.Sanfei Wang, D. N. Wang*, Q. K. Xia, Chao Jiang, Ben Xu and Ran Hao, “Multi-soliton pulse generation in a fiber laser by using a long-period fiber grating”, Optik, Vol.270, 170017, November 2022

73.Xiaowen Chao and D. N. Wang*, “Ultra-short long-period fiber grating based on a micro air-channel structure”, Optics Letters, Vol.47, No.22, pp.5961-5964, 15 November, 2022

2023

74.Jieya Wu, D. N. Wang* and C. L. Zhao*, “Whispering gallery mode resonator based on dual microspheres in an expanded hollow sphere cavity of capillary tube”, Optics and Laser Technology, Vol.157, 108646, January 2023

75.Ben Xu, Yun Guo, Xingchao Ma, Yingfang Zhang, Chun-Liu Zhao, and D. N. Wang*, “Highly Sensitive Fiber Relative Humidity Sensor Based on Tip Michelson Interferometer With Agarose Gel Coating”, IEEE Sensors Journal, Vol.23, No.2, pp.1139-1145, 15 January, 2023

76.Sanfei Wang, D. N. Wang*, and Ben Xu, “All-fiber saturable absorber based on slightly tapered graded index multimode fiber for conventional and bound soliton generation”, Applied Optics, Vol.62, No.6, pp.1504-1509, 20 February 2023

77.Yongli Mei, D. N. Wang*, Qiaoben Wang and Yan Zhang, “Whispering gallery mode microsphere resonator based on cylindrical air cavity coupling”, Optics Letters, Vol.48, No.7, pp.1594-1597, 1 April 2023

78.Q. B. Wang, D. N. Wang* and F. L. Lan, “Ultracompact optical fiber high temperature sensor based on angle polished fiber end face”, Microwave and Optical Technology Letters, 33731, April 2023

79.N. M. Jin, D. N. Wang*, S. L. Cai, Y. Q. Peng*, and Huifang Chen, “Saturable absorber for bound solitons generation based on tapered graded-index multimode fiber with ZnO coating”, Laser Physics Letters, Vol.20, No.6, 065102, 2023

80.Yufeng Fan, D. N. Wang* and Ben Xu, “Generation of conventional solitons and bound state solitons in a passively

mode-locked fiber laser based on GIMF-NCF-GIMF structured saturable

absorber”, Laser Physics Letters, Vol.20, No.6, 065107, 2023

81.Falong Lan, D. N. Wang*, and Huifang Chen, “Surface plasmon resonance sensor based on waveguides inscribed in no-core fiber”, IEEE Photonics Technology Letters, Vol.36, No.16, pp.903-906, 15 August 2023

82.Yaqi Tang, Chao Wang*, Xuefeng Wang, Meng Jiang, Junda Lao and Dongning Wang, “Dispersion Turning Attenuation Microfiber for Flowrate Sensing”, Sensors, Vol.23, 7279, 2023

83.J. W. Gao, D. N. Wang* and Ben Xu, “Highly improved refractive index sensitivity in fiber Mach-Zehnder interferometer based on two tapers”, IEEE Photonics Technology Letters, Vol.35, No.17, pp.935-938, 1 September 2023

84.Q. B. Wang and D. N. Wang*, “Ultracompact optical fiber sensor for inner diameter measurement”, Fiber and Integrated Optics, Vol.42, No.5, pp.151-161, September 2023

85.Bingjie Jin, D. N. Wang*, Ben Xu, Liang Chen and Kai Yang*,“Optical fiber in-line Mach-Zehnder interferometer based on down-up tapers for refractive index measurement”, Optical Fiber Technology, Vol.80, 103427, October 2023

86.Juanjuan Rao, D. N. Wang*, Kai Yang*, Ben Xu, and Yan Zhang*, “Alignment-free coupling in whispering gallery mode resonator based on a tapered capillary”, IEEE Photonics Technology Letters, Vol.35, No.22, pp.1211-1214, 15 November 2023

87.Xingchao Ma, Fengping Zhao, Ben Xu, Chun Liu Zhao, Huifang Chen, D. N. Wang, and Shangzhong Jin, “High-Sensitivity and Fast-Response Humidity Sensor Based on a Simple Fiber-Tip Interferometer With Thin Agarose Gel Coating”, IEEE Journal of Lightwave Technology, Vol.41, No.21, pp.6824-6830, November 1, 2023

2024

88.Qiaoben Wang and D. N. Wang*, “Narrow rectangular slit in optical fiber core for ultrasensitive refractive index measurement”, Optical Fiber Technology, Vol.83,103583, March 2024

89.Juanjuan Rao, D. N. Wang*, Ben Xu, and Kai Yang*, “A reflective whispering gallery mode microsphere resonator integrated with a thick-wall capillary tube”, IEEE Photonics Technology Letters, Vol.36, No.6, pp.409-412, 15 March 2024

出版书籍章节（Research Book Chapter）

1. M. Zhang, H. L. Ho, Y. Zhang, W. Jin, D. N. Wang, and Y. B. Liao, “Active intra-cavity spectroscopy using fiber lasers”, in the book “Recent advances in optical fiber sensors”, W. Jin and S. C. Ruan. ed., Science Press, Beijing, pp.116-137,2005(ISBN 7-03015433-9)

2. D. N. Wang*, Ying Wang and C. R. Liao, “Femtosecond laser micromachining of optical fibres” in the book “Laser Surface Engineering: Processes and applications”, Jonathan Lawrence, Colin Dowding, David Waugh and Jonathan Griffiths ed., Woodhead Publishing Ltd., 2015

3. Chunliu Zhao, D. N. Wang and Limin Xiao, “Filling technologies of photonic crystal fibers and their applications”, in the book “Handbook of optical fibers”, Springer, Springer Nature Singapore Pte Ltd. pp.2139-2200, 2019 (ISBN978-981-10-7085-3)

美国授权专利(Patents Granted)

1. D. N. Wang, X. H. Fang and W. Jin, “Optical pulses emitter”, U.S. Patent No. 7,260,126, Aug. 21, 2007

2. D. N. Wang, Y. P. Wang and W. Jin, “Methods of manufacturing CO₂laser grooved long period fiber gratings”, U.S. Patent No. 7,664,351, February 16, 2010

3.D. N. Wang, Yuhua Li and Jian Lu, “High temperature sustainable fiber Bragg gratings”, U.S. Patent No. 7,835,605, B1 Nov. 16, 2010

4. D. N. Wang, Y. Wang and M. W. Yang, “Microhole-structured long period fiber grating”, U.S. Patent No. 8,160,412, April 17, 2012

5. D. N. Wang, Y. Wang and M. W. Yang, “In-line single fiber Mach-Zehnder interferometer”, U.S. Patent No. 8,478,092 B2, July 2, 2013

6. D. N. Wang and M. W. Yang, “Fiber in-line Mach-Zehnder interferometer (MZI) device”, U.S. Patent No. 8,548,282 B2, October 1, 2013

7. D. N. Wang, Xia Fang and Changrui Liao, “Fiber Bragg gratings fabricated in micro/nanofibers”, US patent No.9,335,468 B2, May 10, 2016

中国授权发明专利

1.王东宁，徐贲，熊辉，龚华平，倪凯，刘红林，陈慧芳，一种基于光纤环形激光器的弯曲传感测量系统，ZL 201510058290.X，2017年8月15日

2.王东宁，徐贲，一种基于微纳光纤的新型光互连芯片，ZL 201510526221.7，2018年12月28日

3.王东宁，龚华平，徐贲，倪凯，刘红林，基于飞秒微加工的光纤马赫泽德传感器及其制作方法，ZL 201510140762.6, 2019年05月28日。

4.王东宁，白雪倩，一种光纤侧面嵌入微球的回音壁谐振器，ZL201910193095.6，2020年12月11日

5.王东宁，李柳江，王兆坤，杨帆，徐贲，陈慧芳，王海龙，朱天瑜，一种双波长和波长可调谐被动锁模光纤激光器，ZL201810094220.3，2020年12月25日

6.王东宁，白雪倩，一种基于微球的光纤腐蚀凹槽式回音壁谐振器，ZL201810600356.7，2021年6月15日

7.王东宁，华阔，一种基于微球的腐蚀抛光型光纤的回音壁模式谐振器，ZL 202010992958.9，2023年3月10日

8.王东宁，刘烨，一种基于法布里-珀罗微腔的光纤应力传感装置，ZL201710151779.0，2023年04月25日

9.王东宁，陈未萍，一种工作稳定的回音壁模式谐振器，ZL 2017 1 0151777.1，2023年05月26日

10.王东宁，刘烨，一种基于迈克尔逊干涉仪的光纤温度和折射率测量传感装置，ZL 2017 1 0874234.2，2023年10月27日

11.王东宁，张华，一种基于飞秒激光刻写波导的光纤线上马赫-曾德干涉仪，ZL 2018 1 0516482.4，2023年12月19日

12.王东宁，刘烨，陈未萍，一种基于法布里-珀罗微腔结构的光纤应力传感装置, ZL 2016 1 0568836.0, 2023年12月26日

13.王东宁，刘静，陈未萍，一种基于微球的光纤端面式回音壁谐振器，ZL 2017 1 0946116.8，2024年01月30日

14.王东宁，夏乾坤，一种光纤内衍射光栅阵列及其制作方法，ZL 2021 1 0765234.5，2024年02月09日

15.王东宁，陈未萍,一种高灵敏度的压力传感装置, ZL 2016 1 0568837.5，2024年02月20日

E-mail：wangdongning@sztu.edu.cn