Under CopyrightHoffmann, RonRonHoffmannBaric, V.V.BaricNaatz, H.H.NaatzMädler, L.L.MädlerHartwig, AndreasAndreasHartwig2022-03-1416.11.20182018https://publica.fraunhofer.de/handle/publica/40230310.24406/publica-fhg-402303The limitations of low-fill nanoparticle-polymer composites are overcome through the initial creation of a stable, percolating inorganic nanoparticle scaffold with a very high porosity via flame-spray pyrolysis. Subsequently, the porous structures are filled with a monomer and are photochemically polymerized. It is shown that for indium tin oxide nanoparticles filled with a bifunctional acrylate, the electrical conductivity can be increased by one order of magnitude due to a structural changing of the layers.en620660671presentation