R&D Engineer at T&S Communications Co., Ltd. in China
Li Xiaojin is a distinguished researcher in optical engineering, currently serving as an R&D Engineer at Shenzhen Taichenguang Communication Co., Ltd. Since July 2021, he has been instrumental in developing advanced optical fiber sensing technologies. Li’s academic journey began with a Bachelor’s degree in Automation from Jiujiang University, followed by a Master’s in Optical Engineering from Shantou University, and culminated in a PhD from Nankai University in 2021. His research encompasses key areas such as optical fiber sensing for lithium-ion batteries, field-induced phase transitions in ferroelectric crystals, and the dynamics of intense laser field interactions with atoms.
Professional Profile
Education
Li Xiaojin completed his Bachelor’s in Automation at Jiujiang University in 2015, followed by a Master’s in Optical Engineering from Shantou University in 2018. He earned his PhD in Optical Engineering from Nankai University in 2021.
Professional experience
Li is currently an R&D Engineer at Shenzhen Taichenguang Communication Co., Ltd., where he has been working since July 2021. Prior to this role, he was involved in a joint training program between Shenzhen University and Shenzhen Taichen Optical Communication Co., Ltd. for postdoctoral research.
Research interest
Li’s research focuses on optical fiber sensing technology, including product development such as grating strain gauges and optical fiber intelligent bolts. He also investigates key technologies for lithium-ion batteries, field-induced phase transitions in ferroelectric crystals, and the interaction between intense laser fields and atoms.
Award and Honor
Li has received several prestigious awards, including the “Gizmo” award from his company, the title of “High-level Talent” in Pingshan District, Shenzhen City, and the “Outstanding Newcomer” award in 2021. Additionally, he has been recognized with the alumni scholarship from Nankai University School of Electro-Optics and titles such as “Excellent Organizational Individual” by the Optical Society of China.
Achievements
- Developed Advanced Products: Created grating strain gauges, grating strain flowers, optical fiber intelligent bolts, partial discharge ultrasonic sensors, optical fiber humidity sensors, and non-contact liquid level sensors.
- Key Technology Research: Worked on optical fiber sensing for lithium-ion batteries, polarization-maintaining optical fiber cylindrical imaging, and seven-core optical fiber fan-out module preparation.
- Published Papers: Authored 17 papers (including 15 SCI papers) in domestic and international journals.
- Invention Patents: Applied for 7 patents related to optical fiber sensing and grating strain gauges.
Conclusion
Li Xiaojin exhibits considerable strengths as a researcher in optical engineering. His innovative products, significant research contributions, and recognition within the field make him a strong candidate for the Research for Best Researcher Award. By addressing areas for improvement, particularly in increasing citation impact and broadening collaboration, Li could further enhance his contributions and influence in the scientific community.
Publications top notes
- 📰 “A Tailless FBG Smart Bolt with Good Performance”
Heliyon
2024 | DOI: 10.1016/j.heliyon.2024.e37772
- 📰 “Advantageous Strain Sensing Performances of FBG Strain Sensors Equipped with Planar UV-Curable Resin”
Sensors
2023 | DOI: 10.3390/s23052811
- 📰 “Great Increase of the Tensile Strength in the Lamellar PI-Coated FBG Sensors”
Optics Continuum
2022 | DOI: 10.1364/optcon.471726
- 📰 “Field-Induced Transformation of Ferroelectric Domain States in KTN Crystal”
Chinese Optics Letters
2021 | DOI: 10.3788/col202119.111602
- 📰 “Obvious Phase Transition Status Induced by He⁺-Ions Implantation in KTN Crystal”
SSRN Electronic Journal
2021 | DOI: 10.2139/ssrn.3817904
- 📰 “Obvious Phase Transition Status Induced by He⁺-Ions Implantation in KTN Crystal”
Acta Materialia
2021 | DOI: 10.1016/j.actamat.2021.117376
- 📰 “Unique Beam Deflection Based on Dynamic Polarized Nano-Domains in Cu-Doped KTN”
Optics Express
2021 | DOI: 10.1364/oe.433655
- 📰 “Reversible Rectification of Microscale Ferroelectric Junctions Employing Liquid Metal Electrodes”
ACS Applied Materials & Interfaces
2021 | DOI: 10.1021/acsami.0c22925
- 📰 “UV-Enhanced Conductive and Dielectric Properties in KTN Crystal”
Ceramics International
2021 | DOI: 10.1016/j.ceramint.2021.01.041
- 📰 “Dynamic Relaxation Process of a 3D Super Crystal Structure in a Cu Crystal”
Chinese Optics Letters
2020 | DOI: 10.3788/col202018.021901
- 📰 “High Transparency Induced by Electric Fields Using KTN Crystals”
Journal of Alloys and Compounds
2020 | DOI: 10.1016/j.jallcom.2020.155702
