Company Filing History:
Years Active: 2022
Title: **The Innovative Contributions of Diana George**
Introduction
Diana George is a notable inventor based in Livermore, California, renowned for her advancements in the field of microelectronic devices. With one patent to her name, she has made significant contributions that enhance the capabilities and applications of neural probes.
Latest Patents
Diana George holds a patent for "Rigid stiffener-reinforced flexible neural probes, and methods of fabrication using wicking channel-distributed adhesives and tissue insertion and extraction." This invention presents a novel stiffener-reinforced microelectrode array probe and outlines a fabrication method that employs wicking channel-distributed adhesives. The process temporarily adheres a flexible device onto a rigid stiffener, facilitating both insertion and extraction. The assembly technique involves dispensing a liquid adhesive into a narrow, open groove wicking channel formed on the stiffener, allowing the adhesive to be wicked along and fill the channel through capillary action. This adhesive-filled bonding side is then adhered to a flexible device, signifying a leap forward in neural probe technology.
Career Highlights
Diana is currently affiliated with Lawrence Livermore National Security, LLC, where she leverages her expertise in research and development. Her professional background highlights her commitment to innovation and excellence in scientific endeavors.
Collaborations
In her journey of innovation, Diana collaborates with esteemed colleagues such as Kedar G. Shah and Satinderpall Singh Pannu. These partnerships not only enhance the quality of her projects but also contribute to a thriving culture of innovation within her work environment.
Conclusion
Diana George's contributions to the field of neural probes underscore her role as a leading inventor in the modern research landscape. Her innovative spirit and collaborative efforts are set to make a lasting impact on technology and healthcare, paving the way for future developments in neural device applications.