Cindy S Senger

Title: The Innovative Contributions of Cindy S Senger

Introduction

Cindy S Senger is a notable inventor based in Plainfield, IL (US). She has made significant contributions to the field of polymer chemistry, particularly in propylene polymerization. With a total of 2 patents, her work has advanced the understanding and application of catalysts in polymer production.

Latest Patents

Cindy's latest patents include a method for propylene polymerization that utilizes a catalyst component in combination with a dialkyl aluminum halide cocatalyst. This catalyst comprises the product of a reaction involving TiCl.sub.3, which is substantially free of extraneous halide, and a selected electron donor compound dissolved in a liquid hydrocarbon solvent. The electron donor compound is chosen from specific organic acid esters, hindered phenolic compounds, and silyl esters. The catalyst she developed provides increased activity, molecular weight control, enhanced isotacticity of propylene polymer products, and prevents catalyst feed line pluggage, among other advantages.

Another patent focuses on a propylene polymerization catalyst and method, which shares similar characteristics and benefits as her previous work. This innovation further solidifies her expertise in the field and showcases her commitment to improving polymerization processes.

Career Highlights

Cindy S Senger is currently employed at Quantum Chemical Corporation, where she continues to apply her knowledge and skills in polymer chemistry. Her work has not only contributed to her company's success but has also had a lasting impact on the industry.

Collaborations

Throughout her career, Cindy has collaborated with esteemed colleagues such as Charles K Buehler and Kenneth W Johnson. These partnerships have fostered an environment of innovation and have led to the development of groundbreaking technologies in polymer chemistry.

Conclusion

Cindy S Senger's contributions to the field of polymer chemistry through her innovative patents and collaborations highlight her as a significant figure in the industry. Her work continues to influence advancements in propylene polymerization and catalyst development.