Company Filing History:
Years Active: 2024
Title: Innovative Contributions of Jennifer Tanner Eisenhauer
Introduction
Jennifer Tanner Eisenhauer, based in Laramie, Wyoming, is an accomplished inventor known for her groundbreaking work in building materials derived from coal. With one patent to her name, she has made significant strides in the field of sustainable construction, providing innovative solutions to modern building challenges.
Latest Patents
Jennifer's patent, titled "Building materials and components and methods of making the same," focuses on methods and materials for fabricating building materials and other components from coal. The patent outlines a distinctive process that involves mixing coal with an organic solvent under solvent extraction conditions to form a coal extraction residue. This residue is then subjected to pyrolysis, resulting in pyrolysis char, which can be combined with materials like clay, cement, or sand to create building products such as char clay plaster, char brick, and foam glass.
Career Highlights
Jennifer Tanner Eisenhauer is affiliated with the University of Wyoming, where she applies her expertise in materials science and engineering. Her innovative approach has not only contributed to her research institution but also to the broader field of sustainable construction. Her dedication to developing environmentally friendly building materials reflects a commitment to enhancing both the efficiency and sustainability of construction practices.
Collaborations
Throughout her career, Jennifer has collaborated with esteemed colleagues such as Gang Tan and Tengyao Jiang. These partnerships have enabled her to refine her research and expand the applications of her inventions in the construction industry.
Conclusion
Jennifer Tanner Eisenhauer is a pivotal figure in the field of innovative building materials. Her patent introduces a novel approach to using coal in construction, emphasizing sustainability and efficiency. With her ongoing contributions and collaborations at the University of Wyoming, she continues to inspire future innovations in the materials sciences.