Location History:
- Silver Spring, MD (US) (1998)
- Hudson, OH (US) (2009)
Company Filing History:
Years Active: 1998-2009
Title: Innovations by Jonathan Selinger
Introduction
Jonathan Selinger is an accomplished inventor based in Hudson, OH (US). He has made significant contributions to the field of materials science, particularly in the development of innovative technologies that utilize unique materials and methods. With a total of 2 patents, Selinger's work has the potential to impact various applications in engineering and technology.
Latest Patents
Selinger's latest patents include "Controlled actuated membranes and methods of making same." This invention describes shape-changing membranes that can be precisely controlled using smectic liquid-crystalline elastomers (LCEs) with patterned electrodes. The process of preparing these elastomers is based on the electroclinic effect of smectic layers in a polymer network, providing a novel material for actuators. Another significant patent is "Sustained delivery of active compounds from tubules, with rational." This invention outlines a method for releasing an active agent into a use environment by disposing of the active agent within the lumen of a population of tubules. The tubules can be placed directly into the environment or within a matrix, such as paint, and have a preselected release profile to ensure a controlled release rate.
Career Highlights
Jonathan Selinger works for the United States Navy, where he contributes his expertise in materials science and engineering. His role involves developing innovative solutions that align with the Navy's technological needs and objectives. Selinger's work is characterized by a commitment to advancing the field through research and practical applications.
Collaborations
Some of Selinger's notable coworkers include Ronald R. Price and Joel M. Schnur. Their collaborative efforts have likely contributed to the successful development of innovative technologies and patents.
Conclusion
Jonathan Selinger is a notable inventor whose work in materials science has led to significant advancements in actuator technology and controlled release systems. His contributions continue to shape the future of engineering and technology.