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Years Active: 2018-2021
Title: Innovations of Charmayne Smith
Introduction
Charmayne Smith is an accomplished inventor based in Winter Park, FL (US). She has made significant contributions to the field of glass composites, particularly in the development of materials with a gradient index of refraction. With a total of 2 patents to her name, her work has implications for various applications in optics and materials science.
Latest Patents
One of her latest patents focuses on glass composites having a gradient index of refraction and methods for production thereof. These gradient refractive index (GRIN) materials can include multi-phase composites with substances that have differing refractive indices disposed non-uniformly within one another. The specific glass composites she developed include an amorphous phase and a phase-separated region that is non-uniformly arranged within the amorphous phase. The mixture contains GeZ and A in a combined molar ratio of about 60% to about 95%, along with CsX and PbZ in a combined molar ratio of about 5% to about 40%. In this context, A can represent As, Sb, or Ga, while X can be Cl, Br, or I, and Z can be S or Se. Notably, when A is As, the glass composites include PbZ in a molar ratio of about 15% or less. The differing refractive indices of the amorphous phase and the phase-separated region are crucial for the functionality of these materials.
Career Highlights
Throughout her career, Charmayne has worked with notable organizations, including the University of Central Florida Research Foundation, Inc. and Lockheed Martin Corporation. Her experience in these institutions has allowed her to refine her expertise in materials science and innovation.
Collaborations
Some of her coworkers include Clara Rivero Baleine and Kathleen Richardson, who have contributed to her research and development efforts.
Conclusion
Charmayne Smith's innovative work in glass composites and her collaborations with esteemed organizations highlight her significant contributions to the field. Her patents pave the way for advancements in optical materials, showcasing her role as a leading inventor in this domain.