Xingcan Huang

Title: Innovations by Xingcan Huang in Health Monitoring Technologies

Introduction

Xingcan Huang is a prominent inventor based in Hong Kong, CN. He has made significant contributions to the field of health monitoring technologies, holding 2 patents that showcase his innovative approach to physiological sensing.

Latest Patents

One of his latest patents is the "Integrated sweat sensing system for health status monitoring and safety warning." This invention provides an integrated sweat sensing system that includes a multi-layered structure with a flexible circuitry sensing layer. It is designed to sense physiological changes in users and deliver feedback signals when certain biological, chemical, or physiological thresholds are exceeded. The system also features a microfluidic-based biosensing platform that monitors changes in sweat composition, including ions, glucose, and pH levels, triggering corresponding feedback signals to the user.

Another notable patent is the "Flexible sweat-activated graphene-coated Ni foam-based Mg—Obattery for stretchable microelectronics for continuous biomarker monitoring." This invention offers a stretchable and flexible battery that powers intelligent and flexible electronics for health monitoring, integrating various biosensors for enhanced functionality.

Career Highlights

Xingcan Huang is affiliated with the City University of Hong Kong, where he continues to advance research in health monitoring technologies. His work emphasizes the integration of flexible electronics with biosensing capabilities, paving the way for innovative health solutions.

Collaborations

He collaborates with notable colleagues, including Xinge Yu and Yiming Liu, contributing to a dynamic research environment focused on cutting-edge health technologies.

Conclusion

Xingcan Huang's innovative patents reflect his commitment to improving health monitoring through advanced technology. His contributions are paving the way for future developments in the field, enhancing the way we monitor and respond to health conditions.