Mark A Lifson

Title: Mark A Lifson: Innovator in Biosensor Technology

Introduction

Mark A Lifson is a prominent inventor based in Rochester, NY (US). He has made significant contributions to the field of biosensor technology, holding a total of 2 patents. His innovative work focuses on methods that enhance the detection of target molecules in various applications.

Latest Patents

One of his latest patents is titled "Polymer microparticle-based method for probe deposition in label-free biosensors." This invention discloses a sensor chip designed for detecting target molecules in a sample. The sensor chip comprises a substrate with a surface and a layer of hydrogel particles immobilized at multiple locations. The hydrogel particles at one location contain a plurality of first probe molecules, while those at another location contain second probe molecules. This patent also includes systems that utilize the sensor chip, along with methods for its preparation and use.

Another notable patent is the "Method for the topographically-selective passivation of micro- and nanoscale devices." This method involves preparing a biosensor by providing a substrate with a topographical pattern on its surface. The substrate is coated with a solution containing hydrogel particles that self-assemble to mask the surface, except at specific sites. Capture molecules are then bound to these sites to form the biosensor. This patent also encompasses systems that include the biosensor and methods for its application.

Career Highlights

Mark A Lifson is affiliated with the University of Rochester, where he continues to advance research in biosensor technology. His work has garnered attention for its innovative approach to enhancing the functionality of biosensors.

Collaborations

He has collaborated with notable colleagues, including Benjamin L Miller and Jared A Carter, contributing to the advancement of research in his field.

Conclusion

Mark A Lifson's contributions to biosensor technology through his patents and research at the University of Rochester highlight his role as an influential inventor. His innovative methods are paving the way for advancements in the detection of target molecules, showcasing the importance of his work in the scientific community.