Abstract: A method is proposed by means of which a composite layer is producible in as simple and controlled a manner as possible, and by means of which composite layers with different predetermined properties can be produced with as little expenditure as possible, and thus economically. The method includes: providing a nanofiber material, comminuting the nanofiber material while forming nanorods, providing a liquid medium, which comprises an ionomer component and a dispersant, dispersing the nanorods in the liquid medium while forming a nanorod ionomer dispersion, and applying the nanorod ionomer dispersion to a surface region of a substrate while forming a composite layer. An electrochemical unit including the composite layer is provided. The composite layer is useful in a fuel cell (hydrogen fuel cell or direct alcohol fuel cell), in a redox flow cell, in an electrolytic cell, or in an ion exchanger, and useful for anion or proton conduction.

Abstract: The invention preferably relates to an electrolytic cell for generating hydrogen and oxygen with a layer system comprising at least one pair of catalytically active layers between which a polymer membrane is arranged, wherein the layer system comprises electrically conductive ceramic or metallic nanofibers. In particular, the layer system comprises a pair of catalytically active layers, as well as transport layers close to the anode and/or close to the cathode, wherein the pair of catalytically active layers comprises catalytically active nanoparticles, and wherein, in order to increase in-plane conductivity or connectivity of the catalytically active nanoparticles, an intermediate layer comprising ceramic or metallic nanofibers is present between one of the catalytically active layers and one of the transport layers, or metallic or ceramic nanofibers are present within one of the catalytically active layers in addition to the catalytically active nanoparticles.

Abstract: A method is proposed by means of which a composite layer is producible in as simple and controlled a manner as possible, and by means of which composite layers with different predetermined properties can be produced with as little expenditure as possible, and thus economically. The method includes: providing a nanofiber material, comminuting the nanofiber material while forming nanorods, providing a liquid medium, which comprises an ionomer component and a dispersant, dispersing the nanorods in the liquid medium while forming a nanorod ionomer dispersion, and applying the nanorod ionomer dispersion to a surface region of a substrate while forming a composite layer. An electrochemical unit including the composite layer is provided. The composite layer is useful in a fuel cell (hydrogen fuel cell or direct alcohol fuel cell), in a redox flow cell, in an electrolytic cell, or in an ion exchanger, and useful for anion or proton conduction.