Dr. Sicheng Chen | Smart sensing system | Best Researcher Award
University of Missouri, United States
Sicheng Chen, Ph.D., is a Postdoctoral Researcher at the University of Missouri (BME) and Nanyang Technological University (EEE). He obtained his Ph.D. in Mechanical Engineering from Xi’an Jiaotong University, with a research exchange at the Australian National University. His expertise spans intelligent sensors, adaptive circuits, and AI-driven signal processing. He has contributed to groundbreaking projects, including NIH-funded research on biocompatible cardiac patches. With 13 first/corresponding-author publications in high-impact journals, multiple patents, and interdisciplinary collaborations, he is dedicated to advancing “sensing-circuit-algorithm” integration for real-time health monitoring and robotics.
Profile
🎓 Education
Sicheng Chen earned his Ph.D. in Mechanical Engineering from Xi’an Jiaotong University (2015-2021) and conducted research at the Australian National University (2018-2019). He completed his Bachelor’s degree in Mechanical Engineering at Xi’an Jiaotong University (2011-2015). His academic journey focused on sensor technology, electronics, and material science, fostering his interdisciplinary approach. His studies emphasized simulation-based sensor design, IC circuit architecture, and AI integration for real-time applications, laying a strong foundation for his postdoctoral research in biomedical engineering and robotics.
💼 Experience
Sicheng Chen is a Postdoctoral Researcher at the University of Missouri (2023-2025) in Biomedical Engineering, where he develops multifunctional soft materials for medical applications. Concurrently, he is a Postdoctoral Fellow at Nanyang Technological University (2021-2024) in Electrical and Electronic Engineering, working on advanced torque sensors for robotics. His career integrates mechanical engineering, AI, and circuit design, contributing to innovative solutions in health monitoring and robotics. His projects span NIH-funded biomedical applications and A*STAR-supported robotic sensing, positioning him as a leader in interdisciplinary research.
🏆 Awards & Honors
Sicheng Chen has received prestigious recognitions, including multiple research grants and best paper awards. He has secured funding from NIH for biocompatible cardiac patches and A*STAR for robotic sensing projects. His innovative research has led to first/corresponding authorship in top-tier journals such as Science Advances and Advanced Functional Materials. He holds patents on advanced bioelectronic systems and has been invited to present at international conferences. His contributions to AI-driven sensor systems have earned him widespread recognition in academia and industry.
🔬 Research Focus
Sicheng Chen specializes in “sensing-circuit-algorithm” integration, developing closed-loop intelligent systems with real-time perception, reasoning, and feedback. His research spans intelligent sensor design, sensor-adaptive circuit architecture, and AI-driven analytics. He engineers flexible physical sensors through first-principles mechanisms, creates hybrid IC solutions with ASICs, and develops lightweight ML models for real-time signal analysis. His work extends to medical wearables, robotics, and AI-driven health monitoring, bridging multiple disciplines, including electronics, materials science, and biomedical engineering, to pioneer next-generation smart sensing systems.
Dr. Sicheng Chen’s innovative research, prolific publication record, and involvement in prestigious projects make him a strong candidate for the Best Researcher Award. By broadening his international impact and leadership presence, he could further solidify his position as a leading figure in his field.
Publication
Title: Multi-sized planar capacitive pressure sensor with ultra-high sensitivity
Year: 2021
Authors: S Chen, S Xin, L Yang, Y Guo, W Zhang, K Sun
Citations: 62
Title: Electron-induced perpendicular graphene sheets embedded porous carbon film for flexible touch sensors
Year: 2020
Authors: S Chen, Y Wang, L Yang, F Karouta, K Sun
Citations: 58
Title: An electrode‐grounded droplet‐based electricity generator (EG‐DEG) for liquid motion monitoring
Year: 2023
Authors: L Yang, J Yu, Y Guo, S Chen, K Tan, S Li
Citations: 51
Title: Flexible and transparent sensors with hierarchically micro-nano texture for touchless sensing and controlling
Year: 2021
Authors: S Chen, Y Wang, L Yang, Y Guo, M Wang, K Sun
Citations: 50
Title: Particle-laden droplet-driven triboelectric nanogenerator for real-time sediment monitoring using a deep learning method
Year: 2020
Authors: L Yang, Y Wang, Z Zhao, Y Guo, S Chen, W Zhang, X Guo
Citations: 48
Title: Quantitative and real‐time evaluation of human respiration signals with a shape‐conformal wireless sensing system
Year: 2022
Authors: S Chen, G Qian, B Ghanem, Y Wang, Z Shu, X Zhao, L Yang, X Liao, …
Citations: 36
Title: Precise control of surface texture on carbon film by ion etching through filter: optimization of texture size for improving tribological behavior
Year: 2019
Authors: S Chen, G Qian, L Yang
Citations: 26
Title: Bimodal capacitive tactile sensor assisted by shield effect of triboelectric nanogenerator
Year: 2023
Authors: S Li, S Chen, L Yang, Y Guo, K Tan, S Liu, J Qiu, B Yuan, J Yu
Citations: 18
Title: Wireless, Smart Hemostasis Device with All‐Soft Sensing System for Quantitative and Real‐Time Pressure Evaluation
Year: 2023
Authors: C Zhang, Q Yang, X Meng, H Li, Z Luo, L Kai, J Liang, S Chen, F Chen
Citations: 18
Title: Surface/interface texture enhanced tribological properties of graphene sheets embedded carbon films
Year: 2021
Authors: J Geng, S Chen, S Xin, Y Guo, L Yang
Citations: 11
Title: Structural and tribological behaviours of silicon doped amorphous carbon films
Year: 2023
Authors: K Sun, M Sun, C Chen, S Chen, J Fan, D Diao
Citations: 10
Title: Quantitative and Real‐Time Evaluation of Pressure on Brain Spatula with Wireless and Compact Sensing System
Year: 2023
Authors: Y Wang, C Zhang, X Meng, Q Zhang, H Li, F Chen, Q Yang, W Zhang, …
Citations: 8
Title: Graphene nanocrystallites induced short run-in period with low electric power at current-carrying sliding interface
Year: 2021
Authors: K Sun, X Fan, L Yang, S Chen, J Fan, D Diao
Citations: 8
Title: Flexible integrated sensor with asymmetric structure for simultaneously 3D tactile and thermal sensing
Year: 2023
Authors: Y Wang, K Sun, Q Zhang, SS Yu, BS Han, J Wang, M Zhao, X Meng, …
Citations: 7