@article{wjce20219412,
author={{Petersen, Malte and Worliczek, Paul and Max, Johannes B. and Nabiyan, Afshin and Wejner, Manuel and Eichhorn, Jonas and Streb, Carsten and Schacher, Felix H. and Wilke, Timm},
title={Hydrogen Evolution Reaction with Sunlight for School Chemistry Education},
journal={World Journal of Chemical Education},
volume={9},
number={4},
pages={190--196},
year={2021},
url={http://pubs.sciepub.com/wjce/9/4/12},
issn={2375-1657},
abstract={In current research, molecular light-driven catalytic units are linked to hierarchically structured soft matter matrices and used to convert solar radiation into chemical reactivity for photocatalytic water splitting. This article describes the development of a simplified hydrogen evolution reaction that transfers selected results to the student laboratory in a phenomenon-oriented manner. For this purpose, a photocatalytically active system - consisting of the catalyst titanium dioxide, the dye Eosin Y and the electron donor triethanolamine - is combined with two polymers as suitable matrices. A newly developed, low-cost hydrogen detector is used to quantify the hydrogen concentration.},
doi={10.12691/wjce-9-4-12}
publisher={Science and Education Publishing}
}