Company Filing History:
Years Active: 2010-2015
Title: **James F. Snyder: Innovator in Structural Electrochemical Capacitors**
Introduction
James F. Snyder, based in Havre de Grace, Maryland, has made significant strides in the field of electrochemical energy storage. With three patents to his name, Snyder's innovations focus on structural electrochemical capacitors that combine capacitance with physical structural strength.
Latest Patents
Among his most recent inventions, Snyder has developed methods for creating structural electrochemical capacitors. These devices include at least one pair of electrodes and a solid electrolytic material situated between them. This innovative design allows the electrochemical capacitor to serve as a structural component in various articles of manufacture. The invention not only focuses on storing electrical energy effectively but also aims to conserve mass and volume within the device. Snyder’s method involves fabricating portions of a device's structure using a high-strength structural electrochemical capacitor, ensuring that the solid electrolytic material constitutes a majority of the mass or volume of the structural element.
Career Highlights
Throughout his career, Snyder has worked with organizations such as the United States Army and the US Government, contributing to the advancement of technology in energy storage and structural applications. His innovation in electrochemical capacitors stands out as a noteworthy achievement, showcasing his commitment to enhancing device efficiency and functionality.
Collaborations
Snyder has collaborated with professionals like Eric Dean Wetzel and Robert Hansbrough Carter, further enhancing his research and development initiatives. These partnerships demonstrate the collaborative nature of innovation, highlighting the importance of teamwork in achieving technological advancements.
Conclusion
James F. Snyder has established himself as a knowledgeable inventor in the realm of structural electrochemical capacitors. His innovative patents have the potential to revolutionize the way electrical energy is stored and utilized in manufacturing, marking a significant contribution to the field of engineering and technology.