Company Filing History:
Years Active: 2008
Title: Innovator Chris Ledderhof: A Pioneer in Waveguiding Structures
Introduction
Chris Ledderhof, an accomplished inventor based in Richmond, CA, has made significant contributions to the field of optical materials and waveguiding technologies. With a unique patent to his name, Ledderhof's work focuses on the integration of microchannels within waveguiding structures, paving the way for advancements in microfluidic devices and photonic applications.
Latest Patents
Ledderhof holds a patent titled "Waveguiding structures with embedded microchannels and method for fabrication thereof." This innovative invention provides a comprehensive method for fabricating planar waveguiding structures that incorporate embedded microchannels. The method involves depositing a second optical material over a planar template with specific features to create an optical waveguiding structure that aligns with the microchannels. This technology holds potential for developing microfluidic devices that utilize ridge waveguides and facilitate fluid delivery.
Career Highlights
Chris Ledderhof is affiliated with Her Majesty the Queen in Right of Canada, represented by the Minister of Industry through the Communications Research Centre Canada. His career has been marked by a commitment to advancing optical innovation, particularly in the realm of waveguiding structures that combine advanced materials and microfluidics.
Collaborations
During his career, Ledderhof has collaborated with notable coworkers, including Patrick Dumais and Claire Callender. These collaborations reflect a team-oriented approach that underpins many scientific innovations, encouraging a multidisciplinary perspective in developing his patented technologies.
Conclusion
Chris Ledderhof's contributions to the field of optical waveguiding structures with embedded microchannels represent a significant leap towards the integration of photonics and microfluidics. His innovative spirit and collaboration with skilled colleagues have set the stage for future developments that may redefine how we implement optical technologies in various applications.