He received his bachelor's in chemistry from Reed College in 1990, and his doctorate in chemistry from Harvard University in 1996. He specializes in multi-disciplinary problem solving in the physical sciences and their corresponding engineering disciplines. Over his 22-year research and development (R&D) career, he has developed expertise in physical chemistry, chemical kinetics, atmospheric chemistry, instrumentation, electronics (digital, analog, power, and RF), spectroscopic sensing, lasers, fiber optics and wave guides, classical optics, electro-optics, electromagnetics, electromechanical systems, heat transfer, materials science, mechanical engineering, manufacturing processes, and renewable energy technologies.
He has won four R&D 100 Awards, holds numerous patents, has 10 active licenses on his inventions, and given many invited talks on the subject of serial innovation. In 2015, he was selected by the U.S. Department of Energy as its Inaugural SunShot Innovator in Residence. He invented the Radical-Ion Flow Battery under the SunShot Innovator in Residence Program to address the need for low-cost, highly scalable electrochemical grid storage, and the performance limitations of prior art battery chemistries in this demanding application. His current research portfolio is focused on electrochemical grid storage, the elimination of rare-earth magnets in wind turbines, and semiconductor thermal management (power electronics, CPUs, GPUs).
During his career, he has been engaged in a range of research activities on multidisciplinary projects. He has expanded his capabilities beyond materials and analytical chemistry to develop expertise and have impacts in diverse fields beyond his chemistry background. He continues to broaden his career in science, engineering, and data related fields to tackle global issues with novel solutions. His ability to work in non-traditional chemistry research fields gives him an advantage to apply unique solutions to complex problems. This diverse background enables him to bring differing scientists together to solve complex challenges globally. He received a bachelors and PhD in chemistry from University of North Florida and Clemson University.
He earned a doctoral degree in photonic devices from the University of Illinois, and has over fifteen years of experience in device design, fabrication and simulation. He is currently in Silicon Photonics, working closely with Sandia’s MESA Fabrication Facility to advance integrated optics and lightwave technologies on-chip. Other research interests include VCSELs, lasers, frequency combs, and RF photonics.
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