▎ 摘　　要

NOVELTY - Preparing self-adhesive electronic skin based on multiple reversible bonding function comprises (i) taking organic solvent as reaction medium, uniformly mixing the formyl benzene boric acid, polyol benzaldehyde and terminal amino prepolymer, reacting for 30-72 hours at room temperature to 90 degrees C and adding metal salt to coordinate to obtain polymer mixed solution, (ii) depositing conductive layer on template substrate, pouring polymer mixed solution on conductive layer, removing solvent, where the boron-oxygen bonds react with each other to generate covalent boron oxide to obtain polymer elastomer, and (iii) removing template substrate, obtaining conductive self-adhesive elastomer coated with conductive layer on surface and connecting flexible electrode at two ends of conductive layer. The conductive layer material is polypyrrole, nano gold, indium tin oxide, graphene, nano silver, carbon nanotubes and/or silver nanowires. USE - The method is useful for preparing self-adhesive electronic skin based on multiple reversible bonding function, which is useful in flexible wear-resistant device, flexible patch electrode, intelligent robot and health monitoring field (claimed). ADVANTAGE - The electronic skin has high conductivity, and has high responsiveness to various deformation of human body. The flexible wear-resistant device, flexible patch electrode, intelligent robot and health monitoring field have wide application prospect. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is also included for electronic skin prepared by the above mentioned method.