▎ 摘　　要

NOVELTY - The method involves applying a solution to a substrate (11). The solution contains a nanomaterial (14) and a solvent. The solvent is evaporated. The application of the solution takes place with the provision of electric and magnetic field. The nanomaterial in the solution in the liquid phase is unidirectionally aligned by the application of the electric and magnetic field. The solution is a sol-gel, a lacquer, an acrylate or an epoxy resin. The nanomaterial comprises a nanosized conductive material and a nanosized material with magnetic properties and the conductive material and material with magnetic properties is selected from a group of carbon nanotubes, graphene, fullerene. After the unidirectional alignment of the nanomaterial, the electric and magnetic field is switched off. USE - Method for producing transparent and conductive coating for solar cells, touch screens, screens or heated surfaces (all claimed). ADVANTAGE - The method for producing a transparent and conductive coating which is time and cost saving is provided. The cost of the nanomaterials is relatively low. The conductivity of the coating is optimized through the linking of the nanomaterial. The nanomaterial is present in lines that are designed without interruptions. The conductivity of the coating is thus improved. Solar cells require high transparency coupled with low electrical resistance to ensure high power efficiency. The transparent, conductive coating is used to heat the surface of solar cells to prevent the solar cells from fogging up or freezing. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a coating. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic view of the coating with electric and magnetic field aligned nanomaterial on substrate. Coating (10) Substrate (11) Object (12) Nanomaterial (14) Distance (17)