冉洋 - 暨南大学 - 光子技术研究院

个人简介

2006年本科毕业于大连理工大学物理与光电工程学院，2010年和2013年在暨南大学电子系和理工学院分别获得工学硕士和工学博士学位。2013年7月加入暨南大学光子技术研究院任讲师，2016年10月晋升副研究员。2017年8月-2018年8月在美国杜克大学生物医学工程系从事访问学者工作。

研究领域

光纤光栅传感器，微纳光纤传感技术，光纤生物传感器，光纤激光器

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

1. P．Strobbia#, Y. Ran #（Co-first author）, B. Crawford, V. Cupil-Garcia, R. Zentella, H-N Wang, T.-P. Sun, and T. Vo-Dinh*, Inverse Molecular Sentinel-Integrated Fiberoptic Sensor for Direct and in Situ Detection of miRNA Targets, Analytical Chemistry 91, 6345-6352 (2019). 2. Y. Ran, P. Strobbia, V. Cupil-Garciab, T. Vo-Dinh*, Fiber-optrode SERS probes using plasmonic silver-coated gold nanostars, Sensors and Actuators B: Chemical 287, 95-101 (2019). 3. Y. H. Zha, Z.Y Xu, P. Xiao, F. R. Feng, Y. Ran *, and B.-O Guan, Phase-shifted type-IIa fiber Bragg gratings for high-temperature laser applications, Optics Express 27, 4346-4353 (2019). 4. T. Liu, L.-L. Liang, P. Xiao, L.-P. Sun, Y.-Y. Huang, Y. Ran*, L. Jin, and B.-O. Guan, A label-free cardiac biomarker immunosensor based on phase-shifted microfiber Bragg grating, Biosensors and Bioelectronics100, 155-160 (2018). 5. P. Xiao, T. Liu, F.-R. Feng, L.-P. Sun, H. Liang, Y. Ran*, L. Jin, and B.-O. Guan, Spectral tuning of the diameter-dependent-chirped Bragg gratings written in microfibers, Optics Express 24, 29749-29759 (2016). 6. F.-R. Feng, T. Liu, P. Xiao, Y. Ran*, H. Liang, L. Jin, and B.-O. Guan, 1-μm-wavelength ytterbium-doped fiber laser based on the third harmonic reflection in secondary-type-In Bragg gratings, Optics Letters41, 4999-5002 (2016). 7. F.-R. Feng, Y. Ran*, Y.-Z. Liang, S. Gao, Y.-H. Feng, L. Jin, and B.-O. Guan, Thermally triggered fiber lasers based on secondary-type-In Bragg gratings, Optics Letters 41, 2470-2473 (2016). 8. Y. Ran, F.-R. Feng, Y.-Z. Liang, L. Jin, and B.-O. Guan, Type IIa Bragg grating based ultra-short DBR fiber laser with high temperature resistance, Optics Letters 40, 5706-5709 (2015). 9. Y. Ran, L. Jin, S. Gao, L.-P. Sun, Y.-Y. Huang, J. Li, and B.-O. Guan, Type IIa Bragg gratings formed in microfibers, Optics Letters 40, 3802-3805 (2015). 10. Y. Ran, L. Jin, L. P. Sun, J. Li, and B. O. Guan, Temperature-Compensated Refractive-Index Sensing Using a Single Bragg Grating in an Abrupt Fiber Taper, IEEE Photonics Journal 5, 7100208-7100208 (2013). 11. Y. Ran, L. Jin, L.-P. Sun, J. Li, and B.-O. Guan, Bragg gratings in rectangular microfiber for temperature independent refractive index sensing, Optics Letters 37, 2649-2651 (2012). 12. Y. Ran, L. Jin, Y. N. Tan, L. P. Sun, J. Li, and B. O. Guan, High-efficiency ultraviolet inscription of Bragg gratings in microfibers, IEEE Photonics Journal 4, 181-186 (2012). 13. Y. Ran, Y.-N. Tan, L.-P. Sun, S. Gao, J. Li, L. Jin, and B.-O. Guan, 193nm excimer laser inscribed Bragg gratings in microfibers for refractive index sensing, Optics Express 19, 18577-18583 (2011). 14. B.-O. Guan, Y. Ran, F.-R. Feng, and L. Jin, Formation and Applications of the Secondary Fiber Bragg Grating, Sensors 17,398 (2017). (Invited Paper) 15. B.-O. Guan, J. Li, L. Jin, and Y. Ran, Fiber Bragg gratings in optical microfibers, Optical Fiber Technology 19, 793-801 (2013). (Invited Paper) 16. D. 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 61, 541-546 (2014).