Company Filing History:
Years Active: 2011
Title: Innovations by Yuangang Gao: Advancements in Power Generation
Introduction
Yuangang Gao is a pioneering inventor based in Boulder, CO, who has made significant strides in the field of power generation. With a focus on nanotechnology, he has developed innovative methods that leverage unique materials to convert energy effectively. His groundbreaking work is reflected in his successfully granted patent.
Latest Patents
Yuangang Gao holds a patent titled "Shock wave and power generation using on-chip nanoenergetic material." This patent describes a novel approach to power generation that utilizes a nanoenergetic material, specifically thermite, deposited on a substrate. The method involves placing an igniter on the nanoenergetic material, which, when ignited, generates thermal, sonic, magnetic, optic, or mechanical energy. The generated energy is then converted into electrical energy by a transducer, which can be a thermoelectric, piezoelectric, or magneto device. His innovative design allows for the integration of multiple transducers within a single power generator, optimizing the energy output from nanoenergetic thermites.
Career Highlights
Yuangang Gao is associated with the Curators of the University of Missouri, where he contributes his expertise to various research initiatives. His work is distinguished not only for its innovative approach but also for its potential applications across various industries, particularly in energy generation.
Collaborations
Throughout his career, Yuangang Gao has had the opportunity to collaborate with other talented professionals, including Shubhra Gangopadhyay and Steven J. Apperson. These collaborations have enriched his research and facilitated the advancement of new technologies that align with his inventive spirit.
Conclusion
Yuangang Gao's contributions to the field of power generation through his patent on nanoenergetic materials position him as a forward-thinking inventor. His work not only showcases cutting-edge technology but also opens pathways for future innovations in energy efficiency and sustainability. The impact of his research may be felt widely as the demand for alternative energy solutions continues to grow.