Michael G Stanford

Title: Michael G Stanford: Innovator in Laser-Induced Graphene Technologies

Introduction

Michael G Stanford is a prominent inventor based in Houston, TX (US). He has made significant contributions to the field of materials science, particularly in the development of laser-induced graphene technologies. With a total of 2 patents, his work focuses on innovative solutions for gas sensing and air filtration.

Latest Patents

Stanford's latest patents include groundbreaking technologies that utilize laser-induced graphene. The first patent is for gas sensors that incorporate laser-induced graphene (LIG) and/or LIG composites. This invention outlines methods for making and using these advanced gas sensors. The second patent focuses on air filters that are virus and microbe-killing, self-sterilizing, and resistive heated. These filters utilize LIG, which is a porous conductive graphene foam created through the photothermal conversion of a polyimide film. The air filter is designed to capture particulates and bacteria, ensuring that microorganisms cannot proliferate even when submerged in culture medium. Through a periodic Joule-heating mechanism, the filter can easily reach temperatures exceeding 300° C, effectively destroying harmful microorganisms and various biological agents.

Career Highlights

Throughout his career, Michael G Stanford has worked with notable institutions such as William Marsh Rice University and B.G. Negev Technologies and Applications Ltd. His innovative research has positioned him as a leader in the field of graphene applications.

Collaborations

Stanford has collaborated with esteemed colleagues, including James Mitchell Tour and Christopher John Arnusch. These partnerships have further advanced his research and development efforts in laser-induced graphene technologies.

Conclusion

Michael G Stanford's contributions to the field of materials science, particularly through his patents on laser-induced graphene technologies, showcase his innovative spirit and dedication to advancing practical applications. His work continues to have a significant impact on gas sensing and air filtration solutions.