Company Filing History:
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Years Active: 2015-2024
Title: Lynnette M Hurlburt: Pioneering Innovations in Stretchable Electrically Conductive Inks
Introduction:
Lynnette M Hurlburt, a talented inventor hailing from Manchester, CT, has made significant contributions to the field of stretchable electrically conductive inks. With a total of 8 patents to her name and a focus on developing innovative ink compositions, she has garnered recognition for her groundbreaking work in materials science and electronics.
Latest Patents:
Hurlburt's latest patents showcase her expertise in stretchable electrically conductive ink compositions. The inventions involve a unique blend of materials, including a continuous polymer phase with dispersed silver flakes and a low melting metal or alloy. Notably, these compositions exhibit exceptional stretchability, with resistivity levels that remain relatively low even at 50% elongation.
Career Highlights:
Throughout her career, Lynnette M Hurlburt has been associated with renowned companies in the industry. She has lent her expertise to Henkel IP & Holding GmbH and Henkel AG & Company, KGaA, where she has played a crucial role in research and development initiatives. Her dedication to innovation and passion for creating cutting-edge technologies have set her apart as a trailblazer in the field.
Collaborations:
In her professional journey, Hurlburt has collaborated with esteemed colleagues such as Andrew D Messana and Anthony Francis Jacobine. Together, they have worked on various projects, leveraging their collective expertise to push the boundaries of traditional ink formulations and explore new possibilities in the realm of stretchable conductive materials.
Conclusion:
Lynnette M Hurlburt's inventive spirit and technical acumen have established her as a leading figure in the realm of stretchable electrically conductive inks. Her pioneering work continues to drive advancements in the field, offering innovative solutions for a wide range of applications. As she continues to push the boundaries of materials science, the future holds exciting possibilities for further breakthroughs in stretchable electronics and beyond.