陈韦良 博士 聘副教授
联系方式:cwl66@foxmail.com
毕业于华中科技大学,武汉光电国家研究中心,获工学博士学位。在Engineering Applications of Artificial Intelligence, Sensors and Actuators Reports, Optics Letters, Advanced Materials Interfaces等期刊上发表多篇SCI论文。
本团队欢迎具有电子、计算机、机械、材料科学等相关专业背景,对柔性电子、传感器和人工智能算法领域有兴趣,具备较强的动手能力,有较强的团队合作精神的同学加入本小组。研究方向涵盖柔性电子器件、智能可穿戴设备、生物传感器、激光加工技术、边缘设备算法、植入式传感器器件与系统等领域。研究生将参与前沿科研项目,与行业领军企业深度合作,拓展科研视野并将理论研究成果转化为实际生产力。课题组提供灵活的发展路径,无论有意继续攻读博士学位,还是希望进入相关产业从事技术研发,课题组都将提供良好的平台和支持。
发表论文列表
[1] Zhipeng Wu, Jie Tan, Xinyin Wu, …, Weiliang Chen* et al. A unified neural network framework for synchronized pressure control in home ventilators. Engineering Applications of Artificial Intelligence, 2026 (JCR Q1, IF = 8.0)
[2] Xinying Wu, Xingyu Zhao, Weiliang Chen*, et al. A systematic review of continuous glucose monitoring sensors: principles, core technologies and performance evaluation. Sensors and Actuators Reports, 2025 (JCR Q1, IF = 7.6)
[3] D. X., Weiliang Chen, et al. A Flexible and Ultra‐Wideband Terahertz Wave Absorber Based on Pyramid‐Shaped Carbon Nanotube Array via Femtosecond‐Laser Microprocessing and Two‐Step Transfer Technique. Advanced Materials Interfaces, 2022 (JCR Q2, IF = 4.3)
[4] Weiliang Chen, et al, In Situ Femtosecond-Laser-Induced Fluorophores on Surface of Polyvinyl Alcohol for H2O/Co2+ Sensing and Data Security. Sensors, 2021 (JCR Q2, IF = 3.9)
[5] Weiliang Chen, et al. Flexible four-dimensional optical data storage enabled by single-pulse femtosecond laser irradiation in thermoplastic polyurethane. Optics Letters, 2021 (JCR Q2, IF = 3.3)
[6] Weiliang Chen, et al. Hierarchical Dendritic Polypyrrole with High Specific Capacitance for High-performance Supercapacitor Electrode Materials. Journal of New Materials for Electrochemical Systems, 2017
[7] X. F., Weiliang Chen, et al. Asymmetric supercapacitors utilizing highly porous metal-organic framework derived Co3O4 nanosheets grown on Ni foam and polyaniline hydrogel derived N-doped nanocarbon electrode materials. Chemical Physics Letters, 2017
[8] S. H., W. K., Weiliang Chen, et al. Generation of a terahertz quasi-Pearcey beam and its investigation in ptychography. Optics Express, 2024