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Years Active: 2019
Title: **Innovative Contributions of Michelle Paquette in Semiconductor Technology**
Introduction
Michelle Paquette is an accomplished inventor based in Overland Park, KS, known for her significant contributions to the field of semiconductor technology. With one issued patent to her name, she has made notable strides in the development of materials crucial for modern electronic devices.
Latest Patents
Michelle Paquette holds a patent for "Amorphous Hydrogenated Boron Carbide Low-k Dielectric and Method of Making the Same." This innovative method involves forming a low-dielectric-constant amorphous hydrogenated boron carbide film on a substrate. The process utilizes a plasma enhanced chemical vapor deposition (PECVD) chamber, where a boron carbide precursor is introduced into a carrier gas. By applying radio frequency power within the PECVD chamber, plasmas are generated that contribute to the formation of the boron carbide film. This development is particularly significant for improving the performance of semiconductor devices.
Career Highlights
Throughout her career, Michelle has worked with prestigious organizations such as the Curators of the University of Missouri and Intel Corporation. Her experience in these institutions has not only honed her skills but also facilitated her innovative endeavors in materials science and semiconductor research.
Collaborations
In her journey as an inventor, Michelle has collaborated with notable colleagues, including Bradley Nordell and Anthony N. Caruso. These collaborations have enabled her to contribute to high-quality research and development, further establishing her presence in the field of semiconductor technologies.
Conclusion
Michelle Paquette's innovative work in the development of low-dielectric materials showcases her dedication to advancing semiconductor technology. Her patent and collaborations reflect her commitment to research and innovation, making her a notable figure in the realm of electronics. As technology continues to evolve, her contributions may pave the way for future advancements in the field.