Light emitting fabrics based on luminophore dye-doped ion gel electrolyte microfibers

Abstract Recently, smart textiles have become a promising material for use in health care, electronics, sensors, and display devices. While there are many interesting studies demonstrating the potential for the use of these fabric devices, there has been little investigation into the materials, processes, and devices for light-emitting applications. The present work focuses on the development of electrolyte microfibers for the realization of a light emitting fabric. The solid-state electrolyte material, ion gel, was formulated by mixing a network-forming polymer and an ionic liquid. To imbue the ion gel with light emitting characteristics, a luminophore dye, Ru(bpy) 3 Cl 2 , was doped into the material. Ion gel microfibers can be made into yarn with a simple yet easy electrospinning technique. The ion gel microfibers showed high ionic conductivity of approximately 0.29 mS/cm, and this value can be increased to 0.47 mS/cm by additional doping with Au nanoclusters. A light emitting device was fabricated by assembling ion gel fibers between indium tin oxide (ITO) and Ag electrodes; the device could successfully generate orange-red light by electrochemiluminescent processes under AC bias. The device showed a maximum luminance of 50 cd/m 2 at a low operation voltage of