Company Filing History:
Years Active: 2017
Title: Johanna F Graveland-Bikker: Innovator in Bio-Sensing Technology
Introduction
Johanna F Graveland-Bikker is a prominent inventor based in Lexmond, Netherlands. She has made significant contributions to the field of bio-sensing technology, particularly through her innovative work on a bio-sensing nanodevice. Her inventions aim to enhance the precision and sensitivity of odorant detection, showcasing her expertise in nanotechnology and biological systems.
Latest Patents
Graveland-Bikker holds a patent for a bio-sensing nanodevice that incorporates a stabilized biologically-derived G-protein coupled receptor, specifically the olfactory receptor. This invention features a real-time receptor-ligand binding detection method, an odorant delivery system, and an odorant recognition program. The nanodevice is designed to provide a greater surface area for improved precision and sensitivity in detecting odorants. Additionally, it includes a microfluidic chip that contains the stabilized olfactory receptor immobilized on a support, arranged in a two-dimensional microarray system. The invention also outlines a method for delivering odorants by manipulating bubbles in complex microfluidic networks.
Career Highlights
Graveland-Bikker is affiliated with the Massachusetts Institute of Technology, where she continues to advance her research in bio-sensing technologies. Her work has garnered attention for its innovative approach to integrating biological receptors with nanotechnology, paving the way for new applications in various fields.
Collaborations
Throughout her career, Johanna has collaborated with notable researchers, including Shuguang Zhang and Andreas Mershin. These partnerships have contributed to the development and refinement of her inventions, enhancing their potential impact in the scientific community.
Conclusion
Johanna F Graveland-Bikker is a trailblazer in the realm of bio-sensing technology, with her patented innovations demonstrating the intersection of biology and nanotechnology. Her contributions are poised to influence future advancements in odorant detection and related applications.