Abstract: A supramolecular conductive polymer composition comprising; a polymer comprising repeating subunits comprising at least one functional group, for forming a part in a hydrogen bond, selected from alcohol, amine, ether, amide, carboxylic acid, ester, ketone, nitrile, aldehyde and carbamide; a polyphenol comprising a minimum of 12 aromatic hydroxyl groups; a solvent with a dielectric constant of at least 20; and an electrically conductive filler.

Abstract: An ionic conductive, stretchable, and flexible transparent material includes silk fibroin, a nanomaterial, and an electrolyte. The material can be recycled. A flexible surface capacitive touch panel and a flexible motion sensor can both be based on the ionic conductive, stretchable, and flexible transparent material. The ionic conductive, stretchable, and flexible transparent material shows many desirable properties, such as a good crystallinity, transparency, mechanical strength, recyclability, optical transparency, and electrical sensitivity. The material shows chemical and thermal stability, in addition to excellent dimensional stability.

Abstract: Disclosed is an ionic conductive, stretchable, and flexible transparent material comprising silk fibroin, a nanomaterial, and an electrolyte and a method of recycling said material. Additionally disclosed is a flexible surface capacitive touch panel and a flexible motion sensor both based on the ionic conductive, stretchable, and flexible transparent material. The ionic conductive, stretchable, and flexible transparent material shows many desirable properties, such as a good crystallinity, transparency, mechanical strength, recyclability, optical transparency, and electrical sensitivity. Additional, the material shows chemical and thermal stability, in addition to excellent dimensional stability.