Company Filing History:
Years Active: 2021-2024
Title: Katherine Reece Phillips: Innovator in Photonic Materials
Introduction
Katherine Reece Phillips is a prominent inventor based in Cambridge, Massachusetts, known for her groundbreaking work in the field of photonic materials. With a total of three patents to her name, Katherine has made significant contributions to the development of high-quality metal oxide templated materials.
Latest Patents
Katherine’s latest patents focus on the formation of high-quality titania, alumina, and other metal oxide templated materials through coassembly. Her innovative approaches include the creation of an inverse photonic structure that integrates air holes or colloidal particles with a metal oxide matrix comprised of nanocrystals. This structure boasts impressive durability, remaining crack-free for at least 10,000 repeat units of the first component. Additionally, she has developed a co-assembly method that combines an onium compound with a sol-gel precursor to synthesize these inverse photonic structures, achieving a remarkable level of precision and quality.
Career Highlights
Katherine has dedicated her professional life to research and innovation at Harvard College, where her expertise in materials science and engineering has flourished. Her work has not only advanced the field but has also opened new avenues for research and development of advanced photonic materials.
Collaborations
In her pursuit of innovation, Katherine has collaborated with prominent colleagues, including Joanna Aizenberg and Tanya Shirman. These partnerships have enhanced her research initiatives, enabling the exploration of new concepts and techniques in material science.
Conclusion
As an inventor, Katherine Reece Phillips continues to impact the scientific community with her cutting-edge work in photonic materials. Her patents represent a significant leap forward in the synthesis of advanced materials, potentially leading to a variety of applications across multiple industries. Katherine's contributions exemplify the spirit of innovation that drives progress in research and technology.