▎ 摘　　要

NOVELTY - The foil (1) has a carrier (2) which has a coating (3) made of graphene and silicon. The coating is a nano-coating in which graphene and silicon are present as nanoparticles, such that an interaction of the molecules or atoms of the coating is made with kinetic energy of radiation, such as neutrinos passing through. A kinetic energy of the molecules of the foil and an electron flow within the foil are tapped as a direct current through the coating as the positive pole and the carrier as the negative pole. The carrier consists entirely or partially of an electrically conductive plastic. The electrically conductive plastic is an electrically conductive polymer or a modified thermoplastic. USE - Foil used as surface section. ADVANTAGE - The efficiency of coated structure is increased. The weight reduction and the material cost reduction are achieved. The performance of the film, i.e. the removable electrical energy is increased when the film is supplied with thermal energy through solar radiation or heat from a human body, when it is used properly. The interaction of the molecules or atoms of the nano-coating, i.e. the coating with the kinetic energy of radiation is increased, and the molecules or atoms or components are stimulated to vibrate more intensely which leads to an increased flow of electrons within the foil. The electrical power that can be removed from the film is increased. The molecules or atoms of the coating have increased kinetic energy when thermal energy is supplied, so that increased removable electrical power is guaranteed. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a method for generating electrical energy by foil. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic view of the foil. Foil (1) Carrier (2) Coating (3) First layer (4) Second layer (5)