Company Filing History:
Years Active: 2017
Title: The Innovative Contributions of Travis Savage
Introduction
Travis Savage is a notable inventor based in Albuquerque, NM (US). He has made significant contributions to the field of materials science, particularly in the development of low-K dielectric materials. His work is characterized by a focus on enhancing the properties of dielectric materials used in various applications.
Latest Patents
Travis Savage holds a patent for "Compositions of low-K dielectric sols containing nonmetallic catalysts." This innovative sol composition is designed for producing a porous low-k dielectric material. The composition includes at least one silicate ester, a polar solvent, water, an acid catalyst for silicate ester hydrolysis, an amphiphilic block copolymer surfactant, and a nonmetallic catalyst that reduces the dielectric constant in the produced material. Additionally, the composition may contain a metallic ion at a lower parts-per-million concentration than the nonmetallic catalyst, and/or a cosolvent. A method for preparing a thin film on a substrate using this sol composition is also included in the patent.
Career Highlights
Travis Savage is associated with Sba Materials, Inc., where he applies his expertise in materials science to drive innovation. His work has led to advancements in the production of dielectric materials, which are crucial for various electronic applications. With 1 patent to his name, he continues to contribute to the field through research and development.
Collaborations
Travis collaborates with Mark L F Phillips, leveraging their combined expertise to further enhance their research and development efforts. Their partnership exemplifies the importance of teamwork in driving innovation in materials science.
Conclusion
Travis Savage's contributions to the field of materials science, particularly through his patent on low-K dielectric sols, highlight his innovative spirit and dedication to advancing technology. His work at Sba Materials, Inc. continues to influence the development of new materials for electronic applications.