Company Filing History:
Years Active: 2014
Title: The Innovative Contributions of Maggie R. Burrow
Introduction
Maggie R. Burrow is an inventive force hailing from Peoria, Illinois. She has made significant strides in the field of sensor technology, particularly with her patent focusing on zinc oxide sulfur sensors. Her work exemplifies a profound commitment to innovation and advancement in detecting sulfur concentration in various liquid fuels.
Latest Patents
Maggie holds a singular patent titled "Zinc Oxide Sulfur Sensors and Method of Using Said Sensors." This patent presents a unique sensor configuration designed for determining sulfur concentration levels in liquids. The sensor boasts a substrate partially coated with zinc oxide microstructures that exhibit an oxygen-deficient, rod-like microstructure, oriented in the (002) crystal lattice plane. Depending on its electrical characteristics, the substrate can either be utilized as a working electrode or enhanced with a conductive layer, facilitating accurate measurements by connecting to a potentiometer and reference electrode. This innovative approach not only enhances the functionality of sulfur detection but also holds potential for various industrial applications.
Career Highlights
Maggie has aligned her professional journey with Caterpillar Inc., a renowned company known for its heavy machinery and technological advancements. Her role within this prestigious organization allows her to apply her expertise in sensor technology, contributing to the development of cutting-edge solutions in the industry.
Collaborations
Throughout her career, Maggie has collaborated with notable colleagues, including Douglas Alexander Rebinsky and Orhan Altin. These collaborations foster a creative exchange of ideas, enabling her to further refine her innovations and contribute to impactful projects within Caterpillar Inc.
Conclusion
Maggie R. Burrow's dedication to innovation, as demonstrated through her groundbreaking patent and collaborative efforts, positions her as a significant contributor to the field of sensor technology. Her work not only enhances our understanding of sulfur detection but also embodies the spirit of progress within the engineering and technology sectors. As she continues to develop her ideas, Maggie's influence on innovations in this domain will surely be seen for years to come.