Zhiqing Xin

Title: Innovations in Non-Invasive Blood Glucose Detection by Zhiqing Xin

Introduction

Zhiqing Xin is an innovative inventor based in Beijing, China. He has made significant contributions to the field of healthcare technology, particularly in the development of non-invasive methods for blood glucose detection. His work focuses on creating flexible wearable electronic devices that enhance patient care and monitoring.

Latest Patents

Zhiqing Xin holds a patent for a groundbreaking method titled "Method of Fabricating Metasurface on Skin for Blood Glucose Detection." This invention relates to a flexible wearable electronic technology that allows for real-time monitoring of blood glucose levels without the need for blood sampling. The method involves designing a metasurface with a resonant ring structure cell and simulating the relationship between blood glucose concentration and the electromagnetic absorption properties of the metasurface. The technology enables accurate glucose detection by analyzing the resonant peak frequency shift in the relationship curve obtained from scanning the metasurface on the skin.

Career Highlights

Zhiqing Xin is affiliated with the Beijing Institute of Graphic Communication, where he continues to advance research in wearable healthcare technologies. His innovative approach to blood glucose monitoring has the potential to revolutionize diabetes management by providing a non-invasive alternative to traditional methods.

Collaborations

Zhiqing Xin collaborates with notable colleagues, including Qingfang Zhang and Yan Li, who contribute to the research and development of his projects. Their combined expertise enhances the effectiveness and applicability of the technologies being developed.

Conclusion

Zhiqing Xin's contributions to non-invasive blood glucose detection exemplify the intersection of technology and healthcare. His innovative methods promise to improve the quality of life for individuals managing diabetes, showcasing the potential of wearable technology in modern medicine.