Company Filing History:
Years Active: 2021
Title: Marie Elizabeth Sullivan Malervy: Innovator in Polymerization-Induced Phase-Separating Compositions
Introduction
Marie Elizabeth Sullivan Malervy is a notable inventor based in Downingtown, PA (US). She has made significant contributions to the field of polymer science, particularly in the development of advanced materials for 3D printing applications. Her innovative work focuses on enhancing the properties of photocurable resins, which are essential for various industrial applications.
Latest Patents
Marie holds a patent for "Polymerization-induced phase-separating compositions for acrylate-based networks." This patent describes compositions that enhance impact resistance and rheological properties in photocurable resins used for 3D printing, including inks, coatings, and adhesives. The embodiments outlined in her patent are advantageous in terms of impact resistance, shear adhesion, and cohesive strength. The PIPS compositions consist of components X, Y, and Z, where X is an acrylic-based monomer, Y is a copolymer of block A and block B, and Z is a multifunctional cross-linker. Additionally, the patent details methods for screening potential acrylic-based monomeric or oligomeric additives that improve impact resistance.
Career Highlights
Marie is currently employed at Arkema France, where she continues to innovate in the field of polymer chemistry. Her work has positioned her as a leader in developing materials that meet the demands of modern manufacturing processes.
Collaborations
Throughout her career, Marie has collaborated with esteemed colleagues, including William C Wolf and David Shin-Ren Liu. These partnerships have fostered a collaborative environment that enhances the research and development of new materials.
Conclusion
Marie Elizabeth Sullivan Malervy is a pioneering inventor whose work in polymerization-induced phase-separating compositions has significantly impacted the field of 3D printing. Her contributions continue to advance the capabilities of photocurable resins, making her a key figure in materials science.