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Long‐Range SECCM Enables High‐Throughput Electrochemical Screening of High Entropy Alloy Electrocatalysts at Up‐To‐Industrial Current Densities

Emmanuel Batsa Tetteh, Olga A. Krysiak, Alan Savan, Moonjoo Kim, Ridha Zerdoumi, Taek Dong Chung, Alfred Ludwig, Wolfgang Schuhmann

2023Small Methods19 citationsDOIOpen Access PDF

Abstract

High-entropy alloys (HEAs), especially in the form of compositional complex solid solutions (CCSS), have gained attention in the field of electrocatalysis. However, exploring their vast composition space concerning their electrocatalytic properties imposes significant challenges. Scanning electrochemical cell microscopy (SECCM) offers high-speed electrochemical analysis on surface areas with a lateral resolution down to tens of nm. However, high-precision piezo positioners often used for the motion of the tip limit the area of SECCM scans to the motion range of the piezo positioners which is typically a few tens of microns. To bridge this experimental gap, the study proposes a long-range SECCM system with a rapid gas-exchange environmental cell for high-throughput electrochemical characterization of 100 mm diameter HEA thin-film material libraries (ML) obtained by combinatorial co-sputtering. Due to the gas-liquid interface at the positioned SECCM droplet on the sample, high-throughput evaluation under industrial current density conditions becomes feasible. This allows the direct correlation between electrocatalytic activity and material composition with high statistical reliability. The multidimensional data obtained accelerates materials discovery, development, and optimization.

Topics & Concepts

Materials scienceElectrochemistryElectrocatalystThroughputHigh entropy alloysAlloyElectrodeHigh resolutionNanotechnologyComputer scienceComposite materialChemistryWirelessRemote sensingPhysical chemistryGeologyTelecommunicationsElectrocatalysts for Energy ConversionElectrochemical Analysis and ApplicationsAdvanced Materials Characterization Techniques