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Years Active: 2022
Title: **Maxwell E. Plaut: Innovator in 3-D Printed Conductive Devices**
Introduction
Maxwell E. Plaut is a prominent inventor based in Cambridge, MA, known for his contributions to the field of 3-D printing and conductive materials. His groundbreaking work focuses on creating devices that leverage innovative materials and methods, pushing the boundaries of technology in ways previously thought impossible.
Latest Patents
Maxwell E. Plaut holds a significant patent related to 3-D printed devices formed with conductive inks. This patent describes a 3-D printed device that incorporates interconnect structures made from a blend of conductive particles and unique diblock or triblock copolymers. These copolymers utilize aromatic-based or acrylate-based polymers combined with aliphatic-based polymers, leading to devices that demonstrate remarkable conductivity. Remarkably, the patent discloses a method of forming these devices through a 3-D solvent cast printing process that requires no post-processing sintering treatment, achieving conductivity levels equal to or greater than 1×10 S/m.
Career Highlights
Throughout his career, Maxwell E. Plaut has worked with prestigious institutions such as the Massachusetts Institute of Technology (MIT) and Harvard College. His roles in these renowned organizations have provided him with a robust platform for research and development in advanced materials and manufacturing techniques.
Collaborations
Maxwell has collaborated with notable professionals, including Bradley P. Duncan and Theodore H. Fedynyshyn. These collaborations have helped enhance the impact of his inventions, fostering a creative environment that encourages innovation and progress in the field of conductive materials and 3-D printing.
Conclusion
Maxwell E. Plaut's contributions to the development of 3-D printed conductive devices exemplify the spirit of innovation. His unique approach to merging cutting-edge materials with advanced manufacturing processes not only showcases his expertise but also sets the stage for future advancements in technology. As his work continues to evolve, it paves the way for a new era of electronic devices and applications that leverage the power of 3-D printing.