Collette M Blake

Title: The Innovative Contributions of Collette M Blake

Introduction

Collette M Blake, an accomplished inventor based in North Liberty, Iowa, has made significant strides in the field of biochemistry and industrial applications. With a focus on converting starch into fermentable sugars, her contributions pave the way for innovative processes that can enhance the production of valuable chemical compounds.

Latest Patents

Collette M Blake holds a patent titled "Direct starch to fermentable sugar as feedstock for the production of isoprene, isoprenoid precursor molecules, and/or isoprenoids." This patent details methods and compositions that enable the direct conversion of starch from a ground or fractionated grain into a fermentable sugar feedstock. This process serves as a carbon source for the industrial production of various products, including isoprene and isoprenoid precursor molecules. The methods outlined in her patent provide a temperature-efficient approach, utilizing endogenous enzymes from unrefined grains, thereby optimizing production processes in the industry.

Career Highlights

Throughout her career, Collette has worked with notable companies, including Danisco US Inc. and The Goodyear Tire & Rubber Company. Her roles in these organizations have allowed her to apply her innovative ideas in a practical context, contributing valuable insights to product development and industrial processes.

Collaborations

Collette has collaborated with esteemed colleagues, such as Gopal K Chotani and Gang Duan, which has further enhanced her work in the field. These collaborations have enabled her to explore various aspects of starch conversion and the potential applications of her research in industrial settings.

Conclusion

Collette M Blake's dedication to innovation in the biochemistry field exemplifies the impact that inventors can have on industry and technology. Her patent on converting starch into fermentable sugars showcases her ability to integrate scientific knowledge with practical applications, ultimately contributing to the advancement of sustainable production methods. As the industry continues to evolve, Blake's contributions will likely inspire further innovations in the realm of renewable resources and chemical production.