Company Filing History:
Years Active: 2001
Title: Innovations of Jeffrey D. Rose in Semiconductor Technology
Introduction
Jeffrey D. Rose is a notable inventor based in Austin, TX, recognized for his contributions to semiconductor technology. With a focus on innovative processes for forming semiconductor devices, he has made significant strides in the field. His work is particularly relevant in the context of modern electronics, where efficiency and precision are paramount.
Latest Patents
Jeffrey D. Rose holds a patent for a "Process for forming a semiconductor device and a process for operating an apparatus." This patent outlines a method that includes placing a substrate into an apparatus, creating a plasma, and processing the substrate. The apparatus features an electromagnetic source, a bulk material, and a first barrier layer. The bulk material is strategically positioned between the electromagnetic source and the interior of the apparatus. Additionally, the process for operating the apparatus involves forming a polymer layer along an inorganic layer, removing the polymer layer to expose the inorganic layer, and etching at least a portion of the exposed inorganic layer. Typically, the inorganic layer is semiconductive or resistive.
Career Highlights
Jeffrey D. Rose has made significant contributions to the field of semiconductor technology during his career at Motorola Corporation. His innovative approaches have helped advance the capabilities of semiconductor devices, making them more efficient and effective in various applications.
Collaborations
Throughout his career, Jeffrey has collaborated with esteemed colleagues, including Michael J. Hartig and David G. Farber. These collaborations have fostered an environment of innovation and have led to the development of groundbreaking technologies in the semiconductor industry.
Conclusion
In summary, Jeffrey D. Rose is a prominent inventor whose work in semiconductor technology has had a lasting impact on the industry. His innovative processes and collaborations continue to shape the future of electronics.