Company Filing History:
Years Active: 2014
Title: Cameron L Bjelkevig: Innovator in Graphene Technology
Introduction
Cameron L Bjelkevig is a distinguished inventor based in Rio Rancho, NM, United States. He has made significant contributions to the field of graphene technology, particularly in the area of electronic devices. With a patent to his name, he continues to influence advancements in materials science and engineering.
Latest Patents
Cameron holds a patent titled "Graphene formation on dielectrics and electronic devices formed therefrom". This invention outlines methods for creating graphene-based devices through advanced techniques such as chemical vapor deposition (CVD) and physical vapor deposition (PVD). The CVD process utilizes cracked hydrocarbons, specifically cracked ethylene, while the PVD process can form single or multiple monolayers of graphene. An important aspect of his invention includes an annealing process that is performed at high temperatures (1000 K or more) to ensure the quality and properties of the graphene film. The methods described in his patent aim to facilitate the development of high-performance electronic devices, enhancing efficiency and functionality in various applications.
Career Highlights
Currently, Cameron is associated with the University of North Texas, where he engages in research to push the boundaries of graphene applications. His expertise has contributed to the university's reputation as a leading institution in the exploration of advanced materials.
Collaborations
Throughout his career, Cameron has worked alongside notable colleagues, including Jeffry A Kelber and Sneha Sen Gaddam. These collaborations highlight the interdisciplinary nature of his work and his commitment to advancing technology through shared knowledge and expertise.
Conclusion
Cameron L Bjelkevig stands as a notable figure in the field of graphene technology, with his innovative methods paving the way for the development of next-generation electronic devices. His work at the University of North Texas, combined with successful collaborations, exemplifies the impact of dedicated research and inventive thinking in transforming materials science for future applications.