关柏鸥教授
tguanbo@jnu.edu.cn 020-37337012 暨南大学番禺校区学院楼3013室 |
研究方向:
光纤器件,光纤传感技术,生物光子学,微波光子学 |
关柏鸥,男,1972年出生,教授,博士生导师,现任光子技术研究院院长兼党总支书记、理工学院院长兼党委副书记、校学术委员会副主任、校学科建设委员会主任、校学位委员会委员、广东省光纤传感与通信技术重点实验室主任。2012年获得国家杰出青年科学基金资助,2014年入选科技部“创新人才推进计划”中青年科技创新领军人才,2016年入选国家“万人计划”科技创新领军人才,2018年入选“广东特支计划”杰出人才(南粤百杰),2019年当选美国光学学会会士(OSA Fellow)。
1994年在四川联合大学(现四川大学)应用物理系获学士学位,1997年和2000年在南开大学现代光学研究所获硕士和博士学位,读博士期间在香港理工大学联合培养,其后在香港理工大学从事博士后研究。2005年加入大连理工大学物理与光电工程学院,任教授、博士生导师,期间创建了辽宁省先进光电子技术重点实验室,任实验室主任。2009年加入暨南大学,创建了暨南大学光子技术研究所(后更名为光子技术研究院)和广东省光纤传感与通信技术重点实验室,任所长(院长)和实验室主任。
主要从事光纤器件、光纤传感技术、生物光子学、微波光子学方面研究,近期研究重点为光纤生物传感器、光纤光声成像、光纤诊疗技术等,承担完成国家杰出青年科学基金项目结题验收为优秀,主持国家自然科学基金重点项目2项(1项结题验收为优秀)、重点国际合作项目1项、NSFC-广东联合基金重点项目1项、广东省自然科学基金研究团队项目1项、“广东特支计划”本土团队项目1项,共发表SCI收录论文272篇,被SCI他引3978次,带领团队荣获光纤传感领域三大国际会议(OFS、EWOFS、APOS)最佳论文奖、杰出创意奖、最佳学生论文奖等,研究成果被ScienceDaily、Phys.org、Verdict、MedicalView、Medgaget、HealthImaging等科技媒体广泛报道。
2019年,当选美国光学学会会士(OSA Fellow)
2018年,荣获广东省五一劳动奖章
2018年,入选“广东特支计划”杰出人才(南粤百杰)
2016年,入选国家“万人计划”科技创新领军人才
2015年,荣获国务院政府特殊津贴
2015年,获聘广东省珠江学者特聘教授
2014年,被评为广东省高校“千百十工程”先进团队带头人
2014年,入选科技部“创新人才推进计划”中青年科技创新领军人才
2014年,入选“广东特支计划”科技创新领军人才
2012年,荣获国家杰出青年科学基金资助
2010年,入选广东省高校“千百十工程”国家级培养对象
2008年,荣获第三届大连市青年科技奖
2007年,入选辽宁省“百千万人才工程”百层次人才
2006年,入选教育部“新世纪优秀人才”
1. “广东特支计划”本土创新团队项目:“光纤生物医学传感及成像技术”
(2019BT02X105),2020.07-2025.06,2000万,主持,在研
2. 国家自然科学基金重点国际合作项目:“微波光子光纤传感技术”
(61860206002),2009.01-2023.12,244万,主持,在研
3. 广东省科技计划项目(科技创新平台类):“广东省光纤传感与通信技术重点实验室”
(2020B1212060043),2020.06-2023.05,450万,主持,在研
4. 国家自然科学基金NSFC-广东联合基金重点项目:“超敏感光纤倏逝波生物传感器基础问题和关键技术研究”
(U1701268),2018.01-2021.12,270万元,主持,在研
5. 国家自然科学基金重点项目:“双频干涉型光纤激光声矢量传感器基础问题和关键技术研究”
(61235005),2013.01-2017.12,300万元,主持,已结题
6. 广州市科技计划重点项目:“温度/应变/振动多参量分布式光纤传感系统研究”
(201904020032),2019.04-2022.03,200万元,主持,在研
7. 国家杰出青年科学基金:“光纤传感器”
(61225023),2013.01-2016.12,280万元,主持,结题评价“优秀”
8. 国家自然科学基金重点项目:“集成化、高速率、多参数、大规模新型光纤传感网络关键技术及其应用研究”
(60736039),2008.01-2011.12,180万元,主持,结题评价“优秀”
9. 国家自然科学基金面上项目:“低温环境下快速响应可复用光纤氢传感器研究”
(61177074),2012.01-2015.12,68万元,主持,已结题
10. 广东省自然科学基金团队项目:“面向电力监测光纤传感网络关键技术研究”
(S2013030013302),2013.10-2018.10,200万元,主持,结题评价“良好”(结题评价有“通过”和“良好”两档,“良好”为最高等级)
11. “广东特支计划”科技创新领军人才项目:“微纳光纤光栅生物传感器技术研究”
(2014TX01X029),2015.04-2018.03,80万元,主持,结题评价“优秀”
12. 广东省科技计划项目(公益研究与能力建设专项):“广东省光纤传感与通信技术重点实验室”
(2014B030301011),2015.01-2017.12,300万元,主持,已结题,2019省重点实验室评估“优秀”
1. B.-O. Guan*, L. Jin, J. Ma, Y. Z. Liang, and X. Bai, “Flexible Fiber-Laser Ultrasound Sensor for Multiscale Photoacoustic Imaging,” Opto-Electronic Advances, in press (Invited Paper)
2. B.-O. Guan*, and Y. Y. Huang, “Interface Sensitized Optical Microfiber Biosensors,” IEEE/OSA Journal of Lightwave Technology, Vol. 37, No.11, pp. 2616-2622, June 1, 2019.(Invited Paper)
3. B.-O. Guan*, L. Jin, L. H. Cheng, and Y. Liang, “Acoustic and Ultrasonic Detection with Radio-Frequency Encoded Fiber Laser Sensors,” IEEE Journal of Selected Topics in Quantum Electronics, Vol. 23, No. 2, Article #: 5601712, March/April 2017.(Invited Paper)
4. B.-O. Guan*, L. Jin, Y. Zhang, and H.-Y. Tam, “Polarimetric heterodyning fiber grating laser sensors,” IEEE/OSA Journal of Lightwave Technology, Vol. 30, No. 8, pp. 1097-1112, Apr. 15, 2012.(Invited Paper)
5. B.-O. Guan*, Y. Ran, F.-R. Feng, and L. Jin, “Formation and Applications of the Secondary Fiber Bragg Grating,” Sensors, Vol. 17, No. 2, 398; doi:10.3390/s17020398, Feb 18, 2017. (Invited Paper)
6. B.-O. Guan*, J. Li, L. Jin, and Y. Ran, “Fiber Bragg gratings in optical microfibers,” Optical Fiber Technology, Vol. 19, No. 6, pp. 793-801, Dec 2013.(Invited Paper)
7. P. Chen, Y. Y. Huang*, Y. Bo, H. Liang, A. Xiao, and B.-O. Guan*, “3D nanointerface enhanced optical microfiber for real-time detection and sizing of single nanoparticles,” Chemical Engineering Journal, Vol. 407, Article 127143, Sept. 29, 2020. (IF: 10.65)
8. J. Ma, Y. He, X. Bai, L.-P. Sun, K. Chen, K. Oh, and B.-O. Guan*, “Flexible microbubble-based Fabry–Pérot cavity for sensitive ultrasound detection and wide-view photoacoustic imaging,” Photonics Research, Vol. 8, No. 10, pp. 1558-1565, Oct. 1, 2020. (IF: 6.09)
9. Y. Y. Huang, P. W. Chen, A. X. Xiao, S. K. Zeng, and B.-O. Guan*, “Nucleic acid hybridization on a plasmonic nanointerface of optical microfiber enables ultrahigh-sensitive detection and potential photothermal therapy,” Biosensors and Bioelectronics, Vol. 156, Article 112147, May 15, 2020. (IF: 10.25)
10. H. T. Li, Y. Y. Huang*, G. Hou, A. Xiao, P. Chen, H. Liang, Y. Huang, X. Zhao, L. Liang, X. Feng, and B.-O. Guan*, “Single-molecule detection of biomarker and localized cellular photothermal therapy using an optical microfiber with nanointerface,” Science Advances, Vol. 5, eaax4659, Dec 20, 2019. (IF: 13.11)
11. L-P Sun, Y Huang, T Huang, Z Yuan, W Lin, Z Sun, M. Yang, P. Xiao, J. Ma, W. Wang, Y. Zhang, Z. Liu, and B.-O. Guan*, “Optical Microfiber Reader for Enzyme-Linked Immunosorbent Assay,” Analytical chemistry, Vol. 91. No. 21, pp. 14141-14148, Nov. 5, 2019. (IF: 6.78)
12. J. Ma, Y. Zhou, X. Bai, K. Chen, and B.-O. Guan*, “High-sensitivity and fast-response fiber-tip Fabry-Perot hydrogen sensor with suspended palladium-decorated grapheme,” Nanoscale, Vol. 11, No. 34. pp. 25821-15827, Sept. 14, 2019. (IF: 6.89)
13. H. Li, Y. Y. Huang*, C. Chen, A. Xiao, G. Hou, Y. Huan, X. H. Feng, B.-O. Guan*, “Real-time cellular cytochrome C monitoring through an optical microfiber: Enabled by a silver-decorated grapheme nanointerface,” Advanced Science, Vol. 5, No. 8, Article 1701074, Aug 2018. (IF:15.84)
14. Y. Y. Huang, M. Ding, T. Guo*, D. Hu, Y. Cao, L. Jin, and B.-O. Guan*, “A fiber-optic sensor for neurotransmitters with ultralow concentration: near-infrared plasmonic electromagnetic field enhancement using raspberry-like meso-SiO2 nanospheres,” Nanoscale, Vol. 9, No. 39, pp. 14929-14936, Oct. 21, 2017. (IF: 6.89)
15. Y. Y. Huang, T. Guo, Z. Tian, B. Yu, M. F. Ding, X. P. Li, B.-O. Guan*, “Non-Radiation Cellular Thermometry based on Interfacial Thermally Induced Phase Transformation in Polymer Coating of Optical Microfiber,” ACS Applied Materials & Interfaces, Vol. 9, No. 10, pp. 9024-9028, Mar. 15, 2017. (IF: 8.75)
16. T. Guo, F. Liu, X. Liang, X. Qiu, Y. Y. Huang, C. Xie, P. Xu, W. Mao*, B.-O. Guan*, and Jacques Albert, “Highly sensitive detection of urinary protein variations using tilted fiber grating sensors with plasmonic nanocoatings,” Biosensors and Bioelectronics, Vol. 78, pp.221-228, Apr. 15, 2016. (IF: 10.25)
17. D. Sun, T. Guo, Y. Ran, Y. Y. Huang, and B.-O. Guan*, “In-situ DNA hybridization detection with a reflective microfiber grating biosensor,” Biosensors and Bioelectronics, Vol. 61, pp. 541-546, 2014. (IF: 10.25)
18. T. Guo, F. Liu, Y. Liu, N.-K. Chen, B.-O. Guan*, and J. Albert*, “In-situ detection of density alteration in non-physiological cells with polarimetric tilted fiber grating sensors,” Biosensors and Bioelectronics, Vol. 55, pp. 452-458, May 15, 2014. (IF: 10.25)
19. Y. Z. Tan, L.-P. Sun, L. Jin, J. Li, B.-O. Guan*, “Microfiber Mach-Zehnder interferometer based on long period grating for sensing applications,” Optics Express, Vol. 21, No.1, pp. 154-164, Jan 14, 2013.
20. L.-P. Sun, J. Li, Y. Z. Tan, X. Shen, X. D. Xie, S. Gao, B.-O. Guan*, “Miniature highly-birefringent microfiber loop with extremely-high refractive index sensitivity,” Optics Express, Vol. 20, No. 9, 10.1364/OE.20.010180, Apr 23, 2012.
21. Y. Ran, L. Jin, Y. N. Tan, L-P. Sun, J. Li, B.-O. Guan*, “High-Efficiency Ultraviolet Inscription of Bragg Gratings in Microfibers,” IEEE Photonics Journal, Vol. 4, No. 1, pp. 181-186, Feb 2012.
22. J. Li, L-P. Sun, S. Gao, Z. Quan, Y. L. Chang, Y. Ran, L. Jin, B.-O. Guan*, “Ultrasensitive refractive-index sensors based on rectangular silica microfibers,” Optics Letters, Vol. 36, No. 18, pp. 3593-3595, Sept 15, 2011.
23. B.-O. Guan*, Y. N. Tan, H. Y. Tam, “Dual polarization fiber grating laser hydrophone,” Optics Express, Vol. 17, No. 22, pp. 19544-19550, Oct 26, 2009.
24. Y. Zhang, B.-O. Guan*, H. Y. Tam, “Ultra-short distributed Bragg reflector fiber laser for sensing applications,” Optics Express, Vol. 17, No. 12, pp. 10050-10055, Jun 8, 2009.
25. B.-O. Guan*, H. Y. Tam, S. T. Lau, and HLW Chan, “Ultrasonic hydrophone based on distributed Bragg reflector fiber laser,” IEEE Photonics Technology Letters, Vol. 17, No.1, pp. 169-171, Jan 2005.
26. B.-O. Guan*, H. Y. Tam, and S. Y. Liu, “Temperature-independent fiber Bragg grating tilt sensor,” IEEE Photonics Technology Letters, Vol. 16, No.1, pp. 224-226, Jan 2004.
27. B.-O. Guan, H. Y. Tam*, X. M. Tao, X. Y. Dong, “Simultaneous strain and temperature measurement using a superstructure fiber Bragg grating, IEEE Photonics Technology Letters, Vol. 12, No.6, pp. 675-677, Jun 2000.