Company Filing History:
Years Active: 1986-1989
Title: Innovations by Lloyd E. Alexander in Electrocatalysis
Introduction
Lloyd E. Alexander, an accomplished inventor based in Angleton, TX, has significantly contributed to the field of electrocatalysis. With a remarkable portfolio of five patents, he has developed innovative methods and processes that enhance the efficiency of electrochemical reactions.
Latest Patents
Lloyd's latest patents reflect his commitment to advancing technology. One of his notable inventions, "Process for Preparation of an Electrocatalyst," presents a method for preparing electrocatalytic oxides. This invention focuses on applying these oxides to substrates unable to withstand the high temperatures typically necessary for converting electrocatalytic salts into oxides. Another significant patent is the "Electrochemical Cell and Process Employing a Biasing Electrode." This invention introduces a separator with a buried wire screen, which is powered by a bias voltage source to prevent unwanted ionic migration across the screen, improving the efficiency of the electrolysis cell.
Career Highlights
Lloyd E. Alexander is affiliated with The Dow Chemical Company, where he works alongside some esteemed colleagues, including Carl E. Byrd and R. Neal Beaver. His innovative contributions have played a critical role in advancing the company's capabilities in the realm of electrochemistry.
Collaborations
Throughout his career, Lloyd has collaborated with talented individuals such as Carl E. Byrd and R. Neal Beaver. These partnerships have fostered a collaborative environment that encourages the development of groundbreaking technologies in electrocatalysis.
Conclusion
Lloyd E. Alexander's innovations have had a profound impact on the field of electrocatalysis. His patents are a testament to his expertise and dedication to advancing chemical processes, which benefit industries relying on efficient electrochemical reactions. As he continues his work at The Dow Chemical Company, the implications of his contributions will undoubtedly resonate throughout the scientific community and beyond.