Chief Executive Officer
A quintessential entrepreneur, mentor, and company builder, Michael Gorton has proven to be a strategic visionary, impacting the telecommunications, music, and healthcare industries. As founding CEO of Teladoc, the nation’s leading telehealth company, Michael pioneered a health care model in which members had access to telephonic physicians who could review medical records, treat, and prescribe medication that today supports the new paradigm in health care reform. As a founder and leader of Principal Solar, Michael applies his business expertise, scientific education, and training to the renewable energy sector – a strong voice and proponent of solar power. Prior to this, Michael served as a partner of the Texas Acceleration Group (TAG), an entity formed to assist startup companies. Michael and other TAG partners founded Palo Duro Records to promote unknown country artist Shelley Laine. Within three years, Laine became the number one ranked independent artist in country music, was nominated for Best Female Artist in 2002, and put six songs on the charts. In 1993, Michael founded Internet Global, a company that delivered the first DSL network and one of the first VOIP networks at a time when few people predicted the profound impact the Internet would have on communication and society. Prior to this, Michael worked as a project engineer at Dallas Power & Light dealing with power plants, distribution, transformer management, and integration of renewable energy into the grid. Fueled by his passion for education, Michael has taught college courses in math, astronomy, and physics and published two novels and dozens of articles on topics ranging from physics to healthcare. Michael earned his B.S. in Engineering from Texas Tech, his M.S. in Physics from the University of Texas at Dallas, and his Juris Doctorate from Texas Wesleyan University.
Matthew A. Thompson, Ph. D.
Chief Operating Officer
Matthew Thompson is a scientist with 23 years experience in semiconductor process development and yield enhancement at Motorola and at Freescale Semiconductor.
At Motorola’s Advanced Process Development Laboratory, he developed vertical gate oxidation processes and equipment. In a collaborative research and development project that included Motorola and IBM, he designed Synchrotron x-ray optics for deep submicron lithography, and supported x-ray mask design. The project culminated with a successful fabrication of fully functional memory chips using x-ray lithography. In another industry research project, Matthew worked with Motorola and Lucent Technologies to develop 200 mm mask manufacturing processes for a novel projection electron beam lithography technique. In addition to these advanced lithography research projects, he developed computer algorithms for Complimentary Phase Shift Masks, leading to volume manufacture of products with 50 nm gates using 248 nm imaging tools. At Freescale Semiconductor, he worked to improve profitability and performance by development and deployment of Design for Manufacturability methodology.
Matthew holds six patents in areas such as electronic design processing, x-ray mirror design, and advanced e-beam lithography, and optical and photo mask design.
Matthew earned a B.S. in Physics at Texas Tech University, and a Ph. D. in Physics at The University of Texas at Austin. His doctoral research on electronic and magnetic properties of ultra-thin crystalline films pre-dates the popular terminology: “nano-technology”.