%0 journal article %@ 2194-4296 %A Schwarze, M.,Thiel, T.,Tasbihi, M.,Schroeter, M.,Menezes, P.,Walter, C.,Driess, M.,Schomäcker, R. %D 2022 %J Energy Technology %N 1 %P 2100525 %R doi:10.1002/ente.202100525 %T Use of Cellulose for the Production of Photocatalytic Films for Hydrogen Evolution Along the Lines of Paper Production %U https://doi.org/10.1002/ente.202100525 1 %X Following the example of photovoltaics, one approach to large-scale photocatalytic hydrogen production is the irradiation of a correspondingly large catalyst area. Paper production is a process in which large areas can already be produced based on the main component: cellulose. Herein, the TiO2 photocatalyst modification PC500, which also uses platinum nanoparticles as a cocatalyst, is supported in two different ways using cellulose. On the one hand, the catalyst is fixed to the surface of a commercial filter paper and, on the other hand, a photocatalytic paper is produced. For comparison, the catalyst is immobilized by means of drop coating using Nafion and measured as a suspension. The cellulose-stabilized films are active and hydrogen production is comparable with the activity obtained from the drop-coating method. The experiments show that the aggregation behavior of cellulose can be used to produce photocatalytically active films. The preparation is easy and can be applied to different kinds of (photo)catalysts. Although the films are very active, their stability during reaction due to swelling and hydrogen production must be further improved.