Kevin Klunder

Title: Kevin Klunder: Innovator in Thermoplastic Carbon Composite Electrodes

Introduction

Kevin Klunder is an accomplished inventor based in Fort Collins, Colorado. He has made significant contributions to the field of electrochemistry through his innovative work on thermoplastic carbon composite electrodes. With a total of 2 patents, Klunder's inventions are paving the way for advancements in various applications, including sensing and battery technology.

Latest Patents

Klunder's latest patents focus on a new solvent-based method for creating low-cost composite graphite electrodes that incorporate a thermoplastic binder. These electrodes, known as thermoplastic electrodes (TPEs), are designed for easy fabrication and patterning. They exhibit excellent electrochemical performance and high conductivity, reaching up to 1500 S m. The thermoplastic binder allows for various fabrication techniques, including hot embossing, molding, templating, and laser cutting into intricate patterns. Klunder's research demonstrates that these TPEs show significant improvements in peak current, peak separation, and charge transfer resistance compared to traditional carbon electrodes. The study also highlights the effects of electrode composition, surface treatment, and graphite source on the overall performance of the electrodes. Under optimized conditions, the TPEs can achieve performance levels comparable to more expensive and complex graphene and highly oriented pyrolytic graphite electrodes.

Career Highlights

Kevin Klunder is affiliated with the Colorado State University Research Foundation, where he continues to explore innovative solutions in materials science and electrochemistry. His work has garnered attention for its potential to revolutionize the production of high-performance carbon electrodes.

Collaborations

One of Klunder's notable collaborators is Charles Sherman Henry, with whom he has worked on various projects related to his patents and research.

Conclusion

Kevin Klunder's contributions to the field of thermoplastic carbon composite electrodes represent a significant advancement in electrochemical technology. His innovative approach not only enhances the performance of carbon electrodes but also opens new avenues for applications in sensing and energy storage.