Location History:
- Gahanna, OH (US) (2021 - 2024)
- Houston, TX (US) (2024)
Company Filing History:
3 out of 634 
2 out of 344 
2 out of 832,880 Years Active: 2021-2024
Title: Savannah Ashley Cofer: Innovator in Laser-Induced Graphene Technology
Introduction
Savannah Ashley Cofer is a prominent inventor based in Gahanna, OH (US). She has made significant contributions to the field of materials science, particularly in the development of laser-induced graphene (LIG). With a total of 5 patents to her name, Cofer's work is paving the way for innovative applications in various industries.
Latest Patents
Cofer's latest patents focus on methods of fabricating laser-induced graphene and compositions thereof. These methods expand the properties of LIG, allowing for the creation of highly conductive materials from a range of precursors, including natural and renewable sources like cloth and paper, as well as high-performance polymers such as Kevlar. Her innovative techniques include multiple lasing and controlled atmospheres, which enable the production of superhydrophobic and superhydrophilic LIG surfaces. The applications of her work are vast, including uses in electronic devices, antifouling surfaces, water treatment technology, and flexible electronics.
Career Highlights
Throughout her career, Savannah Ashley Cofer has worked at William Marsh Rice University, where she has contributed to groundbreaking research in graphene technology. Her expertise in 3D printing of graphene materials has led to the development of methods and apparatuses that utilize combined metal powder and carbon growth sources. This innovative approach allows for the creation of 3D printed graphene materials with unique properties.
Collaborations
Cofer has collaborated with notable figures in her field, including James Mitchell Tour and Yieu Chyan. These partnerships have further enhanced her research and development efforts in graphene technology.
Conclusion
Savannah Ashley Cofer is a trailblazer in the field of laser-induced graphene, with a focus on innovative fabrication methods and applications. Her contributions are shaping the future of materials science and technology.