Company Filing History:
Years Active: 2014
Title: **Innovative Contributions of Patrick Reichen in Atmospheric Plasma Treatment**
Introduction
Patrick Reichen, an inventor based in Wil, Switzerland, has made significant strides in the field of plasma treatment through his groundbreaking patent. With a keen focus on enhancing the treatment of temperature-sensitive materials, his innovations serve critical industries such as pharmaceuticals and polymers.
Latest Patents
Reichen holds a patent titled "Remote Non-Thermal Atmospheric Plasma Treatment of Temperature Sensitive Particulate Materials and Apparatus Therefore." This invention presents a novel approach to remotely treat substrate particles using plasma at atmospheric pressure, aiming to mitigate the challenges posed by traditional low-pressure plasma treatments. The unique design reduces dimensional constraints, enabling transonic flow conditions that ensure effective treatment without the drawbacks of conventional methods.
Career Highlights
Throughout his career, Patrick has exemplified ingenuity in material science. His focus on atmospheric plasma treatment at near-ambient gas temperature has led to advancements that allow continuous processing of delicate materials. The significance of his work lies not only in its theoretical foundations but also in its practical implications for various industries.
Collaborations
Reichen has collaborated with notable experts in the field, including Axel Sonnenfeld and Philipp Rudolf Von Rohr. These partnerships have facilitated the sharing of ideas and fostered an environment of innovation, contributing to the successful development and application of his patented technology.
Conclusion
In conclusion, Patrick Reichen's contributions to remote plasma treatment demonstrate a remarkable evolution in approach and application. His patent not only overcomes existing limitations but also opens new avenues for the treatment of temperature-sensitive materials. As industries continue to evolve, the significance of his work remains poised to impact the future of material processing technologies.