Company Filing History:
Years Active: 2012-2014
Title: Albert C. Imhoff: Innovator in Thermoelectric Technology
Introduction
Albert C. Imhoff, an influential inventor based in Boxford, MA, has made significant contributions to the field of thermoelectric devices. With two patents to his name, his work focuses on enhancing the efficiency of temperature control in various systems. Imhoff's innovations are paving the way for advancements in thermoelectric applications, showcasing the potential of his inventions in real-world scenarios.
Latest Patents
Imhoff's latest patents revolve around "Devices, systems, and methods for controlling the temperature of resonant elements." These thermoelectric devices are designed to transfer heat away from or toward an object utilizing the Peltier effect. Intriguingly, in some embodiments, the length of at least one thermoelectric element is at least ten times greater than the combined average cross-sectional dimension of two thermoelectric elements, orthogonal to its length. This innovative approach demonstrates Imhoff's commitment to improving thermoelectric device performance.
Career Highlights
Albert C. Imhoff is currently affiliated with the Charles Stark Draper Laboratory, Inc., where he contributes to cutting-edge research and development in thermoelectric technologies. His role at this esteemed institution underscores his dedication to advancing scientific understanding and practical applications of his innovations.
Collaborations
Throughout his career, Imhoff has collaborated with notable coworkers such as Stanley R. Shanfield and Thomas A. Langdo. These partnerships highlight the collaborative nature of innovation, as interdisciplinary teamwork is often vital in creating groundbreaking technologies.
Conclusion
In summary, Albert C. Imhoff stands out as a prominent inventor in the field of thermoelectric devices. His dedication to innovation and collaboration at the Charles Stark Draper Laboratory has resulted in valuable patents that contribute to the advancement of technology. As the landscape of thermoelectric applications continues to evolve, Imhoff's work is sure to leave a lasting impact.