Company Filing History:
Years Active: 2020
Title: Innovations by Serap Aksu in Nanoantenna Arrays
Introduction
Serap Aksu, an esteemed inventor based in Allston, MA, has made significant contributions to the field of nanospectroscopy. With one patent to her name, Aksu focuses on the development of nanoantenna arrays and innovative methods for their fabrication that promise to enhance the capabilities of spectroscopy.
Latest Patents
Aksu's patent, titled "Nanoantenna arrays for nanospectroscopy, methods of use and methods of high-throughput nanofabrication," delves into the creation of arrays that feature nanostructures designed in specific shapes and patterns. This design facilitates the collective excitation of surface plasmons, which are essential for students and professionals engaging in nanospectroscopy. Additionally, Aksu introduces a method for high-throughput fabrication of these nanoantenna arrays through nanostencil lithography. This approach not only ensures precision but is adaptable to various support materials, including flexible and thin-film stretchable supports.
Career Highlights
Throughout her career at Boston University, Serap Aksu has engaged in cutting-edge research, positioning herself at the forefront of nanotechnology innovation. Her work demonstrates a unique blend of scientific inquiry and practical application, making her an influential figure within her research institution.
Collaborations
Aksu's endeavors are complemented by collaborations with notable colleagues such as Hatice Altug and Ahmet Ali Yanik. These partnerships underscore the collective effort in advancing nanospectroscopy, incorporating diverse expertise to foster innovation in their respective fields.
Conclusion
In summary, Serap Aksu's innovative work on nanoantenna arrays and their applications in nanospectroscopy showcases her expertise and commitment to advancing nanotechnology. Her patent stands as a testament to her contributions to the research community and the continued exploration of new frontiers in nanoscale fabrication and application.