Jonathan Hannington

Title: Innovations of Jonathan Hannington

Introduction

Jonathan Hannington is a notable inventor based in Midland, MI (US), recognized for his contributions to the field of liquid crystal technology. With a total of seven patents to his name, Hannington has made significant advancements in electro-optic applications and materials.

Latest Patents

Hannington's latest patents include "Non-linear side chain liquid crystal polyorganosiloxanes and methods for their preparation and use in electro-optic applications and devices." This invention presents a non-linear side chain liquid crystal polyorganosiloxane that differs from previous iterations. The preparation method involves a hydrosilylation reaction of a SiH rich intermediate with an aliphatically unsaturated mesogenic compound. This innovative liquid crystal composition is particularly useful in dynamic scattering mode electro-optic devices for various applications. Another significant patent is the "UV-curable silicone composition, cured products thereof, and methods of using the same." This patent describes a shear-thinning UV-curable silicone composition that includes a mercapto-functional polyorganosiloxane and various other components, enhancing its utility in diverse applications.

Career Highlights

Throughout his career, Hannington has worked with prominent companies such as Dow Corning Corporation and Cambridge Enterprise Limited. His experience in these organizations has contributed to his expertise in developing advanced materials and technologies.

Collaborations

Hannington has collaborated with notable individuals in his field, including Terry Clapp and William Alden Crossland. These partnerships have likely fostered innovation and the exchange of ideas, further enhancing his contributions to the industry.

Conclusion

Jonathan Hannington's work exemplifies the spirit of innovation in the field of liquid crystal technology. His patents and collaborations reflect a commitment to advancing electro-optic applications and materials.