Areas of Focus
- Nanosynthesis and biomedical wearable sensing applications of aerogel materials
- Synthesis methods and sensing applications of nanoenzymes
- Design and fabrication of microsensors and microfluidic chips based on MEMS technology
- Design of signal processing circuits
Work Experience
- 2011-2012 - Wuhan Lingyun Technology Group - Technician
- 2012-2013 - China Electronics Technology Group Corporation No. 41 Research Institute - Technician
- 2018-2023 - Northwestern Polytechnical University, School of Materials Science - Postdoctoral Researcher
- 2023-Present - Northwestern Polytechnical University, School of Life Sciences - Associate Professor
Academic Background & Achievements
- 2007-2011 Bachelor: Harbin Engineering University, School of Information and Communication Engineering
- 2013-2018 PhD: University of Chinese Academy of Sciences, Institute of Electronics
Publications
- AuNi Bimetallic Aerogel with Ultra-high Stability Applied in Smart and Portable Biosensing, G. L. Li, P. X. Xue, H. X. Fan, et al., 2024
- Advances in the Noninvasive and Minimally Invasive Sample Collection for Wearable Electrochemical Sensors, D. F. Lu, G. L. Li, D. Wen, et al., 2024
- Portable Visual and Electrochemical Detection of Hydrogen Peroxide Release from Living Cells Based on Dual Functional Pt-Ni Hydrogels, G. L. Li, Y. Chen, D. Wen, et al., 2023
- Dual Structural Design of Platinum-Nickel Hydrogels for Wearable Glucose Biosensing with Ultrahigh Stability, G. L. Li, Y. T. Yu, D. Wen, et al., 2023
- Non-Enzymatic Sweat Wearable Uric Acid Sensor Based on N-doped Reduced Graphene Oxide/Au Dual Aerogels, Y. Chen, G. L. Li, D. Wen, et al., 2023
- Integrating Highly Porous and Flexible Au Hydrogels with Soft-MEMS Technologies for High-Performance Wearable Biosensing, G. L. Li, Y. T. Yu, D. Wen, et al., 2021
- Sensing Nanomaterials of Wearable Glucose Sensors, G. L. Li, D. Wen, 2021
- Wearable Biochemical Sensors for Human Health Monitoring: Sensing Materials and Manufacturing Technologies, G. L. Li, D. Wen, 2020
- 基于力平衡负反馈的电化学地震检波器, 李光磊,王军波,陈连宏,陈健,陈德勇, 2019
- A Flexible Sensing Unit Manufacturing Method of Electrochemical Seismic Sensor, G. L. Li, J. B. Wang, D. Y. Chen, et al., 2018
- An Electrochemical, Low-Frequency Seismic Micro-Sensor Based on MEMS with a Force-Balanced Feedback System, G. L. Li, J. B. Wang, D. Y. Chen, et al., 2017
- A Force-balanced Negative Feedback Method for MEMS Based Electrochemical Seismic Sensor, G. L. Li, J. B. Wang, D. Y. Chen, et al., 2017
- The Effect of Elasticity Coefficient on The Characteristics of MEMS Based Electrochemical Seismic Sensors, G. L. Li, J. B. Wang, D. Y. Chen, et al., 2016
- The Effect of Electrolyte Concentration on The Characteristics of MEMS Based Electrochemical Seismic Sensors, G. L. Li, J. B. Wang, D. Y. Chen, et al., 2015
