Company Filing History:
Years Active: 2003-2009
Title: Karthick Gourishankar: Innovator in Electrochemical Technologies
Introduction
Karthick Gourishankar is a notable inventor based in Downers Grove, IL, who has made significant contributions to the field of electrochemical technologies. With a focus on innovative sensor systems and methods for metal reduction, he holds 2 patents that showcase his expertise and creativity in this specialized area.
Latest Patents
Gourishankar's latest patents include a multi-functional sensor system for molten salt technologies. This invention relates to a system that simultaneously measures cathode and anode electrode potentials, dissolved ion concentration, and temperatures in an electrochemical cell. The system comprises a reference electrode, a sensing electrode, and a data acquisition system, with thermocouples integrated into the reference electrodes to provide crucial temperature data.
Another significant patent is for the direct electrochemical reduction of metal oxides. This method involves controlling the electrolytic reduction of metal oxides to their corresponding metals using a non-consumable anode, a cathode, and a salt electrolyte. The design includes reference electrodes positioned near both the anode and cathode to ensure optimal performance and prevent unwanted reactions.
Career Highlights
Karthick Gourishankar is currently employed by the United States of America as represented by the Department of Energy. His work focuses on advancing technologies that enhance the efficiency and effectiveness of electrochemical processes.
Collaborations
Throughout his career, Gourishankar has collaborated with esteemed colleagues such as Laszlo Redey and Mark A Williamson. These partnerships have contributed to the development of innovative solutions in the field of electrochemistry.
Conclusion
Karthick Gourishankar is a distinguished inventor whose work in electrochemical technologies has led to valuable patents and advancements in the field. His contributions continue to influence the development of efficient and effective electrochemical systems.