Company Filing History:
Years Active: 1993-1997
Title: Richard N Beaver: Innovator in Electrochemical Cell Technology
Introduction
Richard N Beaver was a notable inventor known for his contributions to the field of electrochemical cells. He was based in Angleton, Texas, and held a total of 4 patents during his career. His work has had a lasting impact on the development of technologies related to energy storage and conversion.
Latest Patents
One of Beaver's significant inventions is the "Mattress for Electrochemical Cells." This patent describes a pressurized electrolysis cell that includes a cell housing with a cathode and an anode, a current collector, and an ion exchange membrane. The innovative aspect of this design is the inclusion of an electrically conductive, hydraulically permeable resilient mattress that enhances the performance of the electrochemical cell. Another important patent is the "Membrane-Electrode Structure for Electrochemical Cells," which outlines a membrane-electrode structure that incorporates an ion exchange membrane with a cathode layer and several intermediate layers. These layers consist of inorganic solid particles and an organic polymer binder, optimizing the efficiency of the electrochemical process.
Career Highlights
Richard N Beaver worked at The Dow Chemical Company, where he applied his expertise in electrochemical technologies. His innovative designs and patents contributed to advancements in energy storage solutions, showcasing his commitment to research and development in this critical field.
Collaborations
Throughout his career, Beaver collaborated with notable colleagues, including Yu-Min Tsou and James W McMichael. These partnerships helped foster innovation and drive forward the research in electrochemical technologies.
Conclusion
Richard N Beaver's contributions to electrochemical cell technology have left a significant mark on the industry. His patents continue to influence advancements in energy storage and conversion, highlighting the importance of innovation in this field.