Ye Liu, female, Ph.D., Research Fellow, currently serves as the Head of the Department of Physics and Optoelectronic Engineering, as well as the discipline leader of Optical Engineering. She earned her bachelor’s degree in Optoelectronic Information Science and Technology from Beijing Jiaotong University in 2005 and obtained her Ph.D. in 2010 from the Key Laboratory of Optical Physics at the Institute of Physics, Chinese Academy of Sciences. From 2010 to 2018, she conducted scientific research at the Anhui Institute of Optics and Fine Mechanics, Chinese Academy of Sciences. In 2018, she joined Dongguan University of Technology as a high-level talent. Her main research areas include micro/nanostructure-enhanced spectroscopy, laser micro/nanofabrication, and distributed optical fiber sensing technology. As the project leader, she has undertaken multiple research projects, including the National Natural Science Foundation General Program, Youth Program, sub-projects of the National Key R&D Program, and major projects of the Guangdong Provincial Department of Education. She has also participated in national research programs such as the 973 Program, 863 Program, and the Chinese Academy of Sciences’ Strategic Priority Research Program. She has published over 80 papers in journals such as Sensors and Actuators B, Applied Surface Science, Nanoscale, Optics Express, Optics Letters, and Applied Physics Letters, and holds more than ten authorized invention patents. She plans to recruit two graduate students annually in the fields of optoelectronics, physics, electronics, and artificial intelligence.. |
Engaged in research on optoelectronic intelligent sensing technology, optical fiber sensing, Raman spectroscopy, and related fields. Has led over 10 scientific research projects, including the National Natural Science Foundation of China and sub-projects under the National Key R&D Program. Has published more than 80 SCI academic papers and holds over 10 authorized invention patents.
(1) 微纳结构增强激光光谱技术:将微纳结构的新颖光学效应(如表面等离激元,局域表面等离子体共振、光子带隙等)与激光光谱技术相结合,开展表面增强的拉曼光谱、荧光光谱、LIBS光谱等领域的研究,并开发相应的便携式光谱检测设备。 (2)微纳光子器件及传感应用:发展多种激光微纳加工方法,制备出不同种类的功能性微纳光子器件(如光纤SERS探针、荧光探针、MEMS器件等),并将其用于生物医学、环境科学、公共安全等领域。 (1) Micro-nano structure-enhanced laser spectroscopy technology: combining the novel optical effects of micro-nano structures (such as SPP, LSPR, photonic bandgap etc.) with laser spectroscopy technology to develop surface-enhanced Raman spectroscopy, fluorescence spectroscopy, LIBS spectroscopy, and develop corresponding portable spectrum detection equipments. (2) Micro-nano photonic devices and sensing applications: develop a variety of laser micro-nano processing methods to prepare different types of functional micro-nano photonic devices (such as optical fiber SERS probes, fluorescent probes, MEMS devices, etc.), and It is used in fields such as biomedicine, environmental science, and public safety. |
1. Yanxian Guo, Ye Liu*, Chaocai Luo, Yue Zhang, Yang Li, Fei Zhou, Zhouyi Guo, Zhengfei Zhang, and Zhiming Liu*, “Instantaneous preparation of gold-carbon dot nanocomposites for on-site SERS identification of pathogens in diverse interfaces”, Photonic Research, 12(6): 1303-1312 (2024). 2. Chengbin Cai, Fei Zhou, Rang Chu, Hai Ye, Chao Zhang, Lingling Shui, and Ye Liu*, “Rapid and sensitive in-situ detection of pesticide residues in real tea soup with optical fiber SERS probes”, Journal of Food Composition and Analysis, 134, 106520 (2024). 3. Rang Chu, Yanzhen Tan*, Fei Zhou, and Ye Liu*, “Sensitivity-enhanced humidity sensor based on a surface core fiber decorated with graphene oxide”, Sensors and Actuators Reports, 8, 100207 (2024). 4. Kuikui Guo, Rui Yang, Hongjian Wang, Fei Zhou, Rang Chu, Hongcheng Wang, Laipeng Shao, and Ye Liu*, “Ultrashort fiber optic temperature sensor for the small-scale heat sources”, IEEE Sensors Journal, 24(3): 2682-2688 (2024). 5. Junpeng Huang, Fei Zhou*, Chengbin Cai, Rang Chu, and Ye Liu*, “Remote SERS detection at a 10-m scale using silica fiber SERS probes coupled with a convolutional neural network”, Optics Letters, 48(4), 896-899 (2023). 6. Yanxian Guo, Yang Li, Ranran Fan, Ao Liu, Yiqiao Chen, Huiqing Zhong, Ye Liu, Haolin Chen, Zhouyi Guo, and Zhiming Liu, “Silver@Prussian Blue Core−Satellite Nanostructures as Multimetal Ions Switch for Potent Zero-Background SERS Bioimaging-Guided Chronic Wound Healing”, Nano Letters, 23:8761-8769 (2023). 7. Ye Liu, Rumeng Liu, Chuanwei Ai, Botian Wang, Rang Chu, Hongcheng Wang, Lingling Shui, Fei Zhou*, “Stick-slip-motion-assisted interfacial self-assembly of noble metal nanoparticles on tapered optical fiber surface and its application in SERS detection”, Applied Surface Science, 602: 154298 (2022). 8. Botian Wang#, Ye Liu#, Chuanwei Ai, Rang Chu, Manna Chen, Hai Ye, Hongcheng Wang, and Fei Zhou*, “Highly sensitive SERS detection in a non-volatile liquid-phase system with nanocluster-patterned optical fiber SERS probes”, Optics Express, 30: 15846 (2022). 9. Fei Zhou, Ye Liu*, Hongcheng Wang, Yadong Wei, Geng Zhang, Hai Ye, Manna Chen, and Dongxiong Ling, “Au-nanorod-clusters patterned optical fiber SERS probes fabricated by laser-induced evaporation self-assembly method”, Optics Express, 28: 6648 (2020). 10. Ye Liu, Fei Zhou*, Hongcheng Wang, Xiaoyuan Huang, and Dongxiong Ling, “Micro-coffee- ring-patterned fiber SERS probes and their in situ detection application in complex liquid environments”, Sensors and Actuators B: Chemical, 299: 126990 (2019).
|
