Company Filing History:
Years Active: 2002
Title: **Nancy L. Casselman: Innovator in Microbiological Measurement**
Introduction
Nancy L. Casselman is a notable inventor based in Aurora, Illinois. With a keen focus on developing innovative methods for monitoring microbiological contamination, her contributions to the field of microbiology have significant implications for various industries. As a dedicated innovator, she has made strides in enhancing the accuracy of contamination measurements in opaque media.
Latest Patents
Nancy L. Casselman holds one patent, titled "Measurement of microbiological activity in an opaque medium." This patent describes a novel method for detecting microbiological contamination in opaque materials. The process involves adding a fluorogenic dye to an aliquot of the opaque medium. After incubation, a fluorometer is used to measure the fluorescent signals produced by both the fluorogenic dye and its reacted form. By calculating a useful ratio of these signals, information regarding the level of microbiological contamination can be efficiently ascertained.
Career Highlights
In her professional career, Casselman has been associated with Ondeo Nalco Company, where her expertise has been instrumental in developing advanced solutions for monitoring and managing microbiological contamination. Her work not only showcases her innovation but also her commitment to improving safety and quality standards within industrial processes.
Collaborations
Throughout her career, Nancy has collaborated with notable colleagues including Rodney H. Banks and Mita Chattoraj. These collaborations have fostered a dynamic exchange of ideas, further propelling advancements in microbiological measurement and research.
Conclusion
Nancy L. Casselman exemplifies the spirit of innovation through her contributions to the field of microbiology. Her patented method for measuring microbiological activity in opaque media stands as a testament to her ingenuity and dedication to solving complex challenges. As industries continue to seek improved methodologies, Casselman's work is likely to remain a cornerstone in the pursuit of effective contamination monitoring.