主要从事生物传感和生物信号在智慧医疗领域中的应用研究。通过探究生物传感界面信号识别和转导机制，构建用于高灵敏和高特异性的微纳器件和柔性器件，对核酸、代谢物质和神经递质等生物分子和生物电信号进行检测，通过与现场快检（POCT）系统结合，达到临床样本实时检测、分析和处理的目的，实现精准和快速的传染病实时诊断、慢性病长期检测和个人健康管理。

Dr. Ji is mainly engaged in the application research of biosensors and biological signals in the field of intelligent medical care. By exploring the signal recognition and transduction mechanism of biosensor interface, micro-nano devices and flexible devices with high sensitivity and specificity are constructed for detecting bioelectric signal and biomolecules such as nucleic acids, metabolites and neurotransmitters. Combined with POCT system, it can detect, analyze and process clinical samples in real time. Realize accurate, rapid and real-time diagnosis of infectious diseases, long-term detection of chronic diseases and personal health management.

同济大学 医学院 助理教授

复旦大学 高分子科学系 博士后

浙江大学 生物医学工程与仪器科学学院 博士

Assistant professor: School of Medicine, Tongji University

Postdoctoral: Fudan University

Joint Ph.D.: Zhejiang University

主要从事生物传感与生物电信号处理在智慧医疗领域的应用研究。聚焦国际前沿，结合纳米材料结构与功能的调控及微纳器件的制造，深入探究生物传感界面的信号识别、转导机制，构建高灵敏、高特异性的微纳器件和柔性器件，用于核酸、代谢物、神经递质等生物分子及生物电信号的检测。此外，还致力于开发可植入、可穿戴的诊疗一体化新型器件，并与现场快速检测（POCT）系统结合，实现临床样本的实时检测、分析和处理，从而实现精准、快速的传染病诊断、慢性病的长期监测和个人健康管理。研究工作在J. Am. Chem. Soc., Adv. Mater., Adv. Funct. Mater., Biosens. Bioelectron., Nano Letters, Sens. Actuators, B等领域顶级学术期刊发表论文二十余篇。主持国家自然科学基金项目青年基金。

Dr. Ji is primarily engaged in the research of biosensing and bioelectrical signal processing in the field of smart healthcare. Focusing on cutting-edge international research, I integrate the regulation of nanomaterial structures and functions with micro-nano device manufacturing. By delving into the mechanisms of signal recognition and transduction at the biosensing interface, I develop highly sensitive and specific micro-nano devices and flexible devices for detecting biomolecules such as nucleic acids, metabolites, neurotransmitters, as well as bioelectrical signals. In addition, I am committed to developing implantable and wearable integrated diagnostic and therapeutic devices, combined with point-of-care testing (POCT) systems, to enable real-time detection, analysis, and processing of clinical samples. This facilitates precise and rapid diagnosis of infectious diseases, long-term monitoring of chronic conditions, and personal health management. Research work in the field of J. Am. Chem. Soc., Adv. Mater., Adv. Funct. Mater., Biosens. Bioelectron., Nano Letters, Sens. Actuators, B and so on.