2012.09-2017.6,------南开大学 博士
1. 液芯光纤微流控中的反谐振光流作用增强机理及生物分子识别应用研究,国家自然科学青年基金,2019-2021,主持,在研;
2. 功能化微结构光纤生物分子芯片技术与应用研究,天津市自然科学青年基金,2018-2021, 主持,在研; 3. 多通道流式分子智能芯片及其癌症早期检测技术研究,天津市教委科研计划项目,2018-2021,主持,在研; 4. 微结构光纤生物分子芯片技术及特异性检测研究,天津市光电检测技术与系统重点实 验室开放课题,2020-2021,主持,在研; 5. 海洋水体核素标定,南方海洋科学与工程广东省实验室,2021-2022,主持,在研; 6. 多通道液芯波导光流作用增强技术及癌症早期双标血检研究,国家自然科学面上基金,2019-2022,第二参与,在研; 7. 光纤轨道角动量光束传输色散补偿调控技术研究,天津市自然科学青年基金,2019-2022,第三参与,在研;
1. BINBIN SONG, CHANG JIN, BO WANG, JIXUAN WU, BO LIU, WEI LIN, WEI HUANG, SHAOXIANG DUAN, AND MINGQIANG QIAO, “Hydrophobin HGFI assisted immunobiologic sensor based on a cascaded taper integrated ultra-long-period fiber grating”, Biomedical Optics Express, 2021-05-01, 影响因子:3.732,SCI二区; 2. Jixuan Wu, Qian Wang, Binbin Song*, Cheng Zhang, Bo Liu, Wei Lin, Shaoxiang Duan, and Hua Bai, Capillary-fiber-based All-in-fiber Platform for Microfluid Sensing,IEEE SENSORS JOURNAL, 2021, 影响因子:3.301,SCI二区; 3. Jixuan Wu, Bo Wang, Binbin Song∗, Mingqiang Qiao, Bo Liu, Hao Zhang, Wei Lin, Shaoxiang Duan, “Bioimmunoassay based on hydrophobin HGFI self-assembled whispering gallery mode optofluidic microresonator”, Sensors and Actuators A: Physical, 2021-01-08, 影响因子:3.407, SCI三区; 4. Chenyuan Li, Binbin Song*, Yu Guo, Jixuan Wu, Wei Huang, Xujie Wu, Chang Jin, and Shengyong Chen, “Two Modes Excited SPR Sensor Employing Gold-Coated Photonic Crystal Fiber Based on Three-Layers Air-Holes”, IEEE SENSORS JOURNAL, 2020-06-01, 影响因子:3.301,SCI二区; 5. Yu Guo, Binbin Song*, Wei Huang , and Shengyong Chen, “LSPR Sensor Employing Side-Polished Suspend-Core Microstructured Optical Fiber With a Silver Nanorod”, IEEE SENSORS JOURNAL, 2019-02-01, 影响因子:3.301,SCI二区; 6. B. Song, H. Zhang, B. Liu, W. Lin, J. Wu, “Label-free in-situ real-time DNA hybridization kinetics detection employing microfiber-assisted Mach-Zehnder interferometer”, Biosensors and Bioelectronics, 2016-02-27. 影响因子:10.618 SCI一区; 7. B. Song, H. Zhang, Y. Miao, W. Lin, J. Wu and H. Liu, “Highly sensitive twist sensor employing Sagnac interferometer based on PM-elliptical core fibers”, Optics Express, 2015-06-15, 影响因子:3.894,SCI二区; 8. B. Song, Y. Miao, W. Lin, H. Zhang, B. Liu, J. Wu, H. Liu, D. Yan, “Loss-based magnetic field sensor employing hollow core fiber and magnetic fluid”, IEEE Photonics Technology Letters, 2014-11-15, 影响因子: 2.468, SCI三区; 9. B. Song, Y. Miao, W. Lin, H. Zhang, J. Wu, and B. Liu, “Multi-mode interferometer-based twist sensor with low temperature sensitivity employing square coreless fibers”, Optics Express, 2013-11-04, 影响因子:3.894, SCI二区; 10. LI Chen-yuan, SONG Bin-bin**, WU Ji-xuan, HUANG Wei, WU Xu-jie, JIN Chang, and CHEN Sheng-yong, “Dual-demodulation large-scope high-sensitivity refractive index sensor based on twin-core PCF”, OPTOELECTRONICS LETTERS, 2021-04-15, EI检索; 11. WU Xu-jie, SONG Bin-bin**, WU Ji-xuan, and HUANG Wei, “Intermodal interference based refractive index sensor employing elliptical core photonic crystal fiber”, OPTOELECTRONICS LETTERS, 2021-05-15, EI检索; 12. WU Ji-xuan, WANG Qian, SONG Bin-bin**, CUI Guang-huan, LIU Bo, ZHANG Hao, ZHANG Cheng, ZHANG Shan-shan, DUAN Shao-xiang, and BAI Hua, “An on-line fiber cutting-welding method for the fabrication of Fabry-Perot micro-cavity”, OPTOELECTRONICS LETTERS, 2020-07-01, EI检索; 13. Yu Guo, Binbin Song*, Chenyuan Li, Wei Huang, Xujie Wu, Yue Xiong, Shengyong Chen, “SPR Sensor Employing Gold-coated Photonic Crystal Fiber with Three-layer Air-holes”, Asia Communications and Photonics Conference (ACP) ©OSA 2019, 2019-11-02. EI会议; 14. Binbin Song, Bo Liu, Hao Zhang, Jixuan Wu, Xu Zhang, Haifeng Liu, Wei Huang, “Side-hole-fiber based microfluidic biosensor for label-free DNA hybridization kinetics detection”, 26th International Conference on Optical Fiber Sensors ©OSA 2018, 2018-09-24. EI会议; 15. B. Song, B. Liu, W. Lin, Y. Miao, H. Zhang, J. Wu, H. Liu, D. Yan, “Ultrahigh sensitive twist sensor employing Sagnac interferometer based on PM-elliptical core fibers”, OFS2015 24th International Conference on Optical Fiber Sensors, Proc. of SPIE, 9634 963453-1~4, 2015-9-28. EI会议; 发明专利: 1.基于光纤微腔回音壁的DNA杂交微流控探测器,ZL201610866981.7; 2.双芯微结构光纤模间干涉型高灵敏度折射率传感器,202011146048.5; 3.基于数值散斑的多模光纤传输图像迁移重构算法,202110354442.6;
2019年天津市“131”创新型人才培养工程第三层次人选; 2019年天津市高校“青年后备人才培养计划”;
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