Company Filing History:
Years Active: 2022-2025
Title: Innovations of Yongtao Meng in Hydrogen Evolution Catalysts
Introduction
Yongtao Meng is a prominent inventor based in Stanford, California, known for his significant contributions to the field of hydrogen evolution catalysts. With a total of two patents to his name, he has made strides in developing methods that enhance the efficiency and stability of hydrogen production.
Latest Patents
Yongtao Meng's latest patents include innovative techniques for creating highly active and stable hydrogen evolution catalysts. One of his patents describes a method for forming a cathode for the hydrogen evolution reaction. This method involves providing a substrate, forming a precursor layer that covers the substrate, and then annealing this layer to create an electrocatalyst layer. Another notable patent focuses on highly sustained electrodes and electrolytes for water splitting in salty alkaline and neutral conditions. This invention features a corrosion-resistant anode designed for the oxygen evolution reaction in water containing chloride ions. The anode consists of a substrate, a passivation layer coating the substrate, and an electrocatalyst layer covering the passivation layer. Additionally, it provides a polyanion adjusted alkaline seawater electrolyte for hydrogen generation through electrolysis.
Career Highlights
Yongtao Meng is affiliated with Leland Stanford Junior University, where he conducts research and develops innovative technologies in the field of electrochemistry. His work has garnered attention for its potential applications in sustainable energy solutions.
Collaborations
Yongtao Meng collaborates with esteemed colleagues, including Hongjie Dai and Michael J Kenney, who contribute to his research endeavors and enhance the impact of his inventions.
Conclusion
Yongtao Meng's contributions to the field of hydrogen evolution catalysts demonstrate his commitment to advancing sustainable energy technologies. His innovative patents and collaborations position him as a key figure in the ongoing quest for efficient hydrogen production methods.