Company Filing History:
Years Active: 2015
Title: Jan-Hendrik Klein-Wiele: Innovator in Substrate Surface Modification
Introduction
Jan-Hendrik Klein-Wiele is a notable inventor based in Goettingen, Germany. He has made significant contributions to the field of substrate surface modification through his innovative methods and devices. His work is characterized by a focus on spatially periodic modifications, which have applications in various technological domains.
Latest Patents
Klein-Wiele holds a patent for a "Method and device for spatially periodic modification of a substrate surface." This invention relates to a method and device that modifies a substrate surface in a spatially periodic manner. The process involves acting upon different regions of the substrate surface successively with a spatially periodic illumination pattern. This pattern is generated by the diffraction of an input beam and the superimposition of resulting, diffracted sub-beams using a grid interferometer. The invention allows for precise selection of the substrate surface region to be illuminated, enhancing the efficiency and effectiveness of the modification process. He has 1 patent to his name.
Career Highlights
Klein-Wiele is associated with the Laser-Laboratorium Goettingen e.V., where he has been instrumental in advancing research in laser technology and its applications. His work has contributed to the development of innovative solutions that leverage laser technology for substrate modification.
Collaborations
Klein-Wiele has collaborated with Peter Simon, a fellow researcher, to further explore the potential of laser applications in substrate surface modification. Their partnership has fostered a productive environment for innovation and research.
Conclusion
Jan-Hendrik Klein-Wiele is a prominent figure in the field of substrate surface modification, with a focus on innovative methods that utilize laser technology. His contributions continue to influence advancements in this area, showcasing the importance of research and collaboration in driving innovation.