Stacy H Duvall

Title: Inventor Profile: Stacy H. Duvall

Introduction

Stacy H. Duvall is a prominent inventor based in Indianapolis, Indiana, known for her innovative contributions to the field of chemistry and diagnostics. With a total of two patents to her name, she has made significant strides in the development of chemical compounds that have practical applications in diagnosing and analyzing various analytes.

Latest Patents

Stacy H. Duvall holds two notable patents that highlight her innovative spirit. The first patent, "Phenazinium Mediators," relates to a chemical compound or a salt or solvate thereof being an 1-amino-phenazine derivative. This invention encompasses a chemistry matrix and a test element that utilizes the chemical compound. It also details a method for determining the amount of an analyte in a sample by estimating the amount of electrons liberated or consumed by the chemistry matrix when in contact with a liquid sample.

Her second patent, "Azo Mediators and Methods of Use Thereof," introduces novel azo compounds that do not form azoxy dimers or possess reactive nitroso groups. This patent outlines the use of these azo compounds as mediators in optical and electrochemical diagnostic methods. Additionally, it includes detection reagents, kits, and test elements that are instrumental in such diagnostic approaches.

Career Highlights

Stacy has had a successful career, working with leading companies in the diagnostics field. She has contributed her expertise to Roche Diagnostics Operations, Inc. and Roche Diabetes Care, Inc., where she has been able to apply her innovative ideas and develop new products that enhance diagnostic capabilities.

Collaborations

Throughout her career, Stacy has collaborated with notable individuals, including Dieter Heindl and Peter Gebauer. These collaborations have fostered innovative research and development, leading to groundbreaking advancements in diagnostics and chemistry.

Conclusion

Stacy H. Duvall exemplifies the power of innovation in the field of chemistry, with her patents demonstrating significant advancements in diagnostic methods. Her work not only contributes to the scientific community but also has the potential to impact healthcare by improving the accuracy of analyte detection. As she continues her journey in innovation, the industry eagerly anticipates her next contributions.