Deyu Li

Title: Deyu Li: Innovator in Fluidic Nanotube Technology

Introduction

Deyu Li is a prominent inventor based in Albany, California. He has made significant contributions to the field of fluidic nanotube devices, holding a total of 3 patents. His work focuses on the development of innovative technologies that have the potential to revolutionize various applications in molecular sensing and device integration.

Latest Patents

One of Deyu Li's latest patents involves fluidic nanotubes and devices. These devices utilize hydrophilic, non-carbon nanotubes that are fluidly coupled to reservoirs. The design includes source and drain contacts connected to opposing ends of the nanotube or within each reservoir near the opening. The passage of molecular species can be detected by measuring current flow, whether it be source-drain, ionic, or a combination of both. The interior of the nanotube can be functionalized with binding molecules, allowing for the detection of different molecular species through current changes. Additionally, the nanotube may function as a semiconductor, forming a tubular transistor with a gate electrode to control current and ionic flow. This technology has a wide range of applications, including nanopores, nanocapillary devices, DNA sequence detectors, immunosensors, thermoelectric devices, photonic devices, and nanoscale fluidic bioseparators.

Career Highlights

Deyu Li is affiliated with the University of California, where he continues to advance his research in fluidic nanotube technology. His innovative work has garnered attention in the scientific community, contributing to the understanding and application of nanotechnology in various fields.

Collaborations

Deyu Li has collaborated with notable colleagues such as Peidong Yang and Rongrui He. Their combined expertise has further enhanced the research and development of fluidic nanotube devices.

Conclusion

Deyu Li's contributions to the field of fluidic nanotube technology exemplify the innovative spirit of modern inventors. His patents and ongoing research hold promise for future advancements in molecular sensing and device applications.