Dessel, InkaInkaDesselDogan, DenizDenizDoganEichel, Rüdiger AlbertRüdiger AlbertEichelHecker, BurkhardBurkhardHeckerHofmann, ChristianChristianHofmannHuber, FlorianFlorianHuberJakob, AshaAshaJakobKost, Hans-JoachimHans-JoachimKostLöb, PatrickPatrickLöbMüller, AndreasAndreasMüllerSahehmahamad, SarifahnurlizaSarifahnurlizaSahehmahamadSchmidt, Volkmar M.Volkmar M.SchmidtSchneider, F.F.SchneiderTempel, HermannHermannTempelWasserschaff, GuidoGuidoWasserschaffZiogas, AthanassiosAthanassiosZiogas2024-08-292024-08-292024https://publica.fraunhofer.de/handle/publica/47427510.1002/cite.2023002342-s2.0-85191840256High-throughput experimentation, a well-established and powerful tool in the field of heterogeneous catalysis screening, has been extended to the field of electrochemistry. A parallel and modular high-throughput screening platform was designed, involving the development of a new modular electrochemical flow cell by the Fraunhofer Institute for Microengineering and Microsystems (IMM) in cooperation with hte GmbH and IEK-9 / FZ Jülich GmbH. Here, this platform is introduced for alkaline water electrolysis, showing initial results that underline the flexibility, comparability, and accuracy of the experiments.open accessAlkaline water electrolysisAnion exchange membrane water electrolysisElectrochemistryHigh-throughput experimentationModular flow cellsjournal article