Yong Zeng

Title: Innovations of Yong Zeng: Pioneering Graphene-Based Technologies

Introduction

Yong Zeng is an accomplished inventor based in Olathe, KS (US), known for his significant contributions to the field of nanotechnology. With a total of 4 patents, he has focused on developing innovative methods for detecting biological substances, particularly exosomes, using graphene oxide-based technologies.

Latest Patents

Zeng's latest patents include groundbreaking work on graphene oxide-based nanolabs and methods for detecting exosomes. One of his notable inventions is a graphene-based sandwich immunoassay designed to determine the presence of target biological substances in samples. This method involves using particles coated with graphene nanosheets, which bind to the target substance through specific receptors. The detection process is completed by introducing a detection antibody that forms a detectable complex with the target substance.

Another significant patent involves a capture device that utilizes a substrate with a graphene-oxide layer and polydopamine polymers. This device is engineered to capture biological substances effectively, with the targeting receptor capable of binding to specific targets, such as exosomes. The innovative design allows for the substrate to be a particle or a surface in a microfluidic channel, enhancing the versatility of the technology.

Career Highlights

Throughout his career, Yong Zeng has worked with esteemed institutions, including the University of Kansas Medical Center Research Institute and the Kansas State University Research Foundation. His work has significantly advanced the understanding and application of graphene in biomedical research.

Collaborations

Zeng has collaborated with notable colleagues, including Mei He and Peng Zhang, contributing to the development of cutting-edge technologies in his field.

Conclusion

Yong Zeng's innovative work in graphene-based technologies and his dedication to advancing biomedical research have established him as a prominent figure in the field. His patents reflect a commitment to improving detection methods for biological substances, paving the way for future advancements in nanotechnology.