Charles Sharkey

Title: Charles Sharkey: Innovator in Colloidosomes Technology

Introduction: Charles Sharkey, an esteemed inventor based in Glen Head, NY, has made notable contributions to the field of material science through his innovative patent concerning colloidosomes. With a keen focus on creating ultra-low density films and solid materials, Sharkey's work showcases the intersection of creativity and scientific ingenuity.

Latest Patents: Charles Sharkey holds a patent titled "System, Method, and Apparatus Relating to Colloidosomes." This innovative technology consists of a process involving two immiscible fluids and nanocrystals that self-assemble into colloidosomes. By applying a shear force to these fluids and nanocrystals, Sharkey's method enables the formation of ultra-low density self-assembled colloidosomes, which can be transformed into both films and solid materials. The resulting products have significant potential applications in various industries.

Career Highlights: Throughout his career, Charles Sharkey has worked with prominent organizations, enhancing his expertise in advanced materials. He has contributed his skills at the Lawrence Livermore National Security, LLC, where he engaged in cutting-edge research and development. Additionally, his affiliation with Carnegie Mellon University provided him with an academic environment conducive to innovation and collaboration within the scientific community.

Collaborations: Collaboration has been a key aspect of Sharkey's professional journey. He has had the pleasure of working alongside talented individuals such as Christine A. Orme and Sarah Elyse Baker. These collaborations have undoubtedly enriched his research endeavors and contributed to the successful development of his patented technologies.

Conclusion: Charles Sharkey stands out as a prominent inventor in the realm of materials science, particularly with his groundbreaking work on colloidosomes. His patent not only demonstrates his inventive spirit but also opens up new avenues for the application of ultra-low density materials. With continued collaboration and innovation, Sharkey's work may inspire future developments in the field.