Company Filing History:
Years Active: 2002
Title: Jessica L Voss: Innovator in Energy Curable Inks
Introduction
Jessica L Voss is a notable inventor based in New Brighton, MN (US). She has made significant contributions to the field of energy curable inks, showcasing her expertise and innovative spirit. With one patent to her name, she has demonstrated her ability to create compositions that enhance various applications.
Latest Patents
Jessica's patent focuses on "Energy curable inks and other compositions incorporating surface modified, nanometer-sized particles." This invention relates to compositions that integrate surface modified, nanometer-sized inorganic oxide particles into energy curable fluids. The surface modification allows for controllable compatibility between the particles and the fluid, achieving a wide range of rheological characteristics. The preferred compositions exhibit favorable dot gain and thickness build-up for printing applications. When cured, these compositions improve physical properties such as hardness, modulus, abrasion resistance, and refractive index. They are particularly well-suited for forming printed, radiation-cured features on various substrates, including paper, signs, walkways, roadways, motor vehicles, boats, aircraft, and furniture.
Career Highlights
Jessica is currently associated with 3M Innovative Properties Company, where she continues to push the boundaries of innovation in her field. Her work has not only contributed to the advancement of energy curable inks but has also positioned her as a key player in the industry.
Collaborations
Throughout her career, Jessica has collaborated with talented individuals such as Dong Wu and Brant Ulrick Kolb. These partnerships have further enriched her work and contributed to the success of her innovations.
Conclusion
Jessica L Voss is a pioneering inventor whose work in energy curable inks has made a significant impact on various industries. Her innovative compositions and dedication to her craft continue to inspire advancements in printing technologies.