Company Filing History:
Years Active: 1982-2004
Title: The Innovative Mind of Albert H. Giles: Patents and Contributions from Greeneville, TN
Introduction
Albert H. Giles, an inventive spirit hailing from Greeneville, Tennessee, has made significant contributions to the field of electrochemistry with his innovative patents. Holding a total of three patents, his work primarily revolves around advanced materials and their applications in electrochemical cells.
Latest Patents
Giles’ latest patents showcase his prowess in engineering and materials science. One of his notable inventions, the "Expanded Zinc Mesh Anode," consists of sheets of expanded zinc mesh that can vary in thickness and mesh size. This innovative design can be coiled or layered, ensuring continuous electrical contact, which is vital in developing efficient electrochemical cells.
Another significant patent is his work on "Conductive Coatings for Metal Substrates." In this invention, he explores a method of creating a metal substrate, particularly using zinc, by applying a solution that includes various salts and acids. This process culminates in the application of an electrically conductive coating, such as graphite, enabling enhanced performance of metal surfaces in electrical applications.
Career Highlights
Throughout his career, Albert H. Giles has worked with reputable companies, such as Ball Corporation and Alltrista Zinc Products, L.P. His experiences in these organizations have undoubtedly enriched his understanding and implementation of advanced technologies in his inventions.
Collaborations
Giles has had the opportunity to collaborate with notable individuals in his field, including Michael J. Mirra and Jack T. West. These professional relationships have likely contributed to the development of his innovative concepts and patents, fostering a culture of collaboration and creativity.
Conclusion
Albert H. Giles stands as a significant figure in the realm of invention, particularly in the development of electrochemical technologies. His patents reflect a commitment to innovation and a deep understanding of material science. As he continues to advance the field, his contributions will undoubtedly influence future innovations in electrochemistry.