Kayla Clary

Title: Kayla Clary: Innovator in Water Electrolysis and Hydrogen Production

Introduction

Kayla Clary is a prominent inventor based in Tucson, AZ (US). She has made significant contributions to the field of water electrolysis and hydrogen production, holding 2 patents that showcase her innovative approach to catalysis.

Latest Patents

One of her latest patents is titled "Enhanced water electrolysis with protic co-catalysts." This invention describes catalyst systems that utilize inexpensive and readily-available protic co-catalysts to enhance the proton reduction rate in hydrogen evolution reactions (HER). The protic co-catalysts increase the reaction rate without being consumed during the water splitting process, which produces hydrogen and oxygen. Additionally, they help stabilize the pH of the water and act as electrolytes to facilitate the current for electrolytic water splitting. These co-catalysts also lower the overpotential energy requirement for the water splitting process and can be used with both heterogeneous and homogeneous catalysts, as well as assist in photocatalysis and other proton reduction processes.

Another significant patent by Kayla Clary is "Metallopolymers for catalytic generation of hydrogen." This invention involves metallopolymers made from polymers and catalytically active diiron-disulfide ([2Fe-2S]) complexes. The synthesized [FeFe]-hydrogenase mimics initiate the polymerization of various monomers to create metallopolymers containing active [2Fe-2S] sites, which serve as catalysts for hydrogen evolution reactions. The use of vinylic monomers with polar groups enhances water solubility, making it relevant for large-scale hydrogen production. The metallopolymeric electrocatalysts exhibit high turnover frequency and low overpotential in aqueous media, along with aerobic stability. Furthermore, metallopolymeric photocatalysts incorporate P3HT ligands to act as photosensitizers, promoting photoinduced electron transfer to the active complex.

Career Highlights

Kayla Clary is affiliated with the University of Arizona, where she continues her research and development in innovative catalytic systems. Her work has garnered attention for its potential applications in sustainable energy solutions.

Collaborations

She collaborates with esteemed colleagues, including Dong-Chul Pyun and Richard S Glass, who contribute to her research endeavors and enhance the impact of her inventions.

Conclusion