Company Filing History:
Years Active: 2009
Introduction
Fabien Sauter is an accomplished inventor based in Seyssinet-Pariset, France. He has made significant contributions to the field of biological measurement technologies. With a unique perspective on electrical activity in biological elements, Sauter has developed innovative solutions that enhance our understanding of biological functions.
Latest Patents
Sauter's notable patent, titled "Device for measuring the electrical activity of biological elements and its applications," showcases his inventive prowess. The device is designed to measure the electrical activity of biological elements and features a substrate with upper and lower faces, including at least one through opening. This innovative device incorporates a chamber defined by two plates positioned on either side of the substrate. Each plate is equipped with electrodes facing the substrate's opening, signifying a major advancement in the measurement of biological electrical activity.
Career Highlights
Fabien Sauter is employed at the Commissariat à l'Énergie Atomique, where he applies his expertise in the development of advanced measurement devices. His work has not only contributed to technological advancements but has also enhanced collaboration within the scientific community. With one patent to his name, Sauter's contributions are significant within his field, making him a recognized figure in innovation.
Collaborations
Throughout his career, Sauter has collaborated with talented colleagues such as Nathalie Picollet-Dahan and Patrice Caillat. Working alongside such professionals has allowed him to further refine his inventions and contribute to groundbreaking research initiatives within his organization.
Conclusion
In summary, Fabien Sauter is a noteworthy inventor in the realm of biological measurement devices. His patent demonstrates a commitment to innovation, reflecting the potential applications in various scientific fields. With continued research and collaboration, Sauter is poised to make further impactful contributions, advancing our understanding of biological electrical activity.