▎ 摘　　要

NOVELTY - Manufacturing super-hydrophobic and high-conductivity flexible dry electrode involves preparing conductive polymer film with single-side bionic lotus leaf structure; modifying graphene to obtain holey graphene growing zinc oxide nanowire on surface of holey graphene coating zinc oxide nanowire and holey graphene conductive polymer to obtain active layer; and combining one surface of polymer film non-bionic lotus leaf structure with active layer by conductive gel into super-hydrophobic high-conductivity flexible dry electrode. USE - Method for manufacturing super-hydrophobic and high-conductivity flexible dry electrode. ADVANTAGE - The method enables to increase specific surface area of graphene, have stronger flexibility and deformation ability, and realizes flexibility, functions of self-cleaning anti-pollution, high toughness, low impedance, high signal-to-noise ratio and anti-motion artifact. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a super-hydrophobic and high-conductivity flexible dry electrode, which comprises laminated polymer film and an active layer, and lead connected with active layer, other end of lead is connected with outer conductor, polymer film is conductive, and outer surface is provided with bionic lotus leaf structure, active layer comprises conductive polymer coating, zinc oxide nano-wire and sheet-shaped holey graphene zinc oxide nano-wire is grown on holey graphene, conductive polymer coating is coated on holey and graphene oxide nano-wire surface, outline of active layer is less than outline of polymer film.