Chanel Tissot

Title: Innovations of Chanel Tissot in Uranium Extraction

Introduction

Chanel Tissot is an accomplished inventor based in Hyattsville, MD (US). She has made significant contributions to the field of chemistry, particularly in the area of uranium extraction. Her innovative work focuses on the development of polymers grafted with organic phosphorous compounds, which have the potential to revolutionize the way uranium is extracted from various solutions.

Latest Patents

Chanel Tissot holds a patent for her invention titled "Polymers grafted with organic phosphorous compounds for extracting uranium from solutions." This patent describes complexing or chelating agents that provide strong and selective bonding with uranium, effective across a broad pH range, specifically around 8.2. The invention utilizes acrylic double bonds necessary for radiation-induced grafting on polymers, enabling the removal of uranium from solutions such as seawater. The novel adsorbing species include phosphorus-containing molecules, particularly organic phosphates, phosphonates, and phosphoric acids. These organic phosphorus compounds are attached to polymer fibers, creating effective fibers, fiber fabrics, or membranes for uranium adsorption.

Career Highlights

Throughout her career, Chanel Tissot has worked with notable institutions, including the University System of Maryland and The Catholic University of America. Her research and innovations have garnered attention in the scientific community, showcasing her expertise in polymer chemistry and environmental applications.

Collaborations

Chanel has collaborated with esteemed colleagues such as Aaron Barkatt and Mohamad Al-Sheikhly. These partnerships have contributed to her research and the advancement of her patented technologies.

Conclusion

Chanel Tissot's innovative work in the field of uranium extraction through the use of grafted polymers represents a significant advancement in environmental chemistry. Her contributions not only highlight her expertise but also pave the way for future developments in sustainable resource extraction.