Judy Browder Shaw

Title: Innovations of Judy Browder Shaw

Introduction

Judy Browder Shaw is a notable inventor based in Leonard, Texas. She has made significant contributions to the field of integrated circuits, holding two patents that showcase her expertise and innovative spirit. Her work primarily focuses on the fabrication of Schottky barrier contacts, which are essential for the performance of various electronic devices.

Latest Patents

Judy's latest patents include methods for fabricating devices with inhomogeneous silicide Schottky barrier contacts. The first patent describes a method that involves providing a substrate with a silicon surface, where multiple transistors are formed in both PMOS and NMOS regions. The process includes pre-silicide cleaning to remove oxide from exposed surface regions, followed by the deposition of metals such as Yb and Pt. The metal layer is then heated to create an inhomogeneous silicide layer, which enhances the performance of the transistors. The second patent reiterates this innovative method, emphasizing the importance of the inhomogeneous silicide layer in improving the functionality of integrated circuits.

Career Highlights

Judy Browder Shaw has built her career at Texas Instruments Corporation, a leading company in the semiconductor industry. Her work has not only advanced the technology behind integrated circuits but has also contributed to the overall progress in electronic device manufacturing.

Collaborations

Throughout her career, Judy has collaborated with talented individuals such as Deborah J. Riley and Christopher L. Hinkle. These collaborations have fostered an environment of innovation and creativity, leading to the successful development of her patented technologies.

Conclusion

Judy Browder Shaw's contributions to the field of integrated circuits through her innovative patents highlight her role as a significant inventor. Her work continues to influence the technology landscape, showcasing the importance of innovation in advancing electronic devices.