Emily Cooper

Title: Emily Cooper - Innovator in Electrically Active Textiles

Introduction

Emily Cooper is a pioneering inventor based in Cambridge, MA (US). She has made significant contributions to the field of electrically active textiles, which integrate electrical circuitry into fabric materials. Her innovative work has the potential to revolutionize the way textiles are used in various applications.

Latest Patents

Emily holds a patent for "Electrically active textiles and articles made therefrom." This patent describes fabrics that serve as integral elements of electrical circuitry. These textiles facilitate control over the operation of external components connected to them and can act as substrates for electrical components or as the electrical components themselves. The invention achieves selective, anisotropic electrical conductivity through the use of conductive fibers running in one weave direction and non-conductive fibers in the opposite direction. The conductive fibers can carry data signals and power, connecting directly to electrical components soldered onto the fabric. Additionally, passive electrical components can be integrated into textiles using threads with selected electrical properties.

Career Highlights

Emily Cooper is affiliated with the Massachusetts Institute of Technology, where she continues to advance her research in the field of smart textiles. Her work has garnered attention for its innovative approach to integrating technology with everyday materials.

Collaborations

Emily has collaborated with notable colleagues, including E Rehmi Post and Margaret Orth, who share her passion for advancing textile technology.

Conclusion

Emily Cooper's contributions to electrically active textiles exemplify the intersection of innovation and functionality in modern materials. Her work not only enhances the capabilities of textiles but also opens new avenues for technological integration in everyday life.