AI Article Synopsis
- - The study explores a new high-throughput method to synthesize and screen alloy catalysts quickly and cost-effectively, enabling rapid testing of multiple compositions simultaneously using 37 mini-reaction cells.
- - A variety of alloy combinations (binary, ternary, and quaternary) were created and their electrochemical activities for hydrogen evolution and oxygen reduction reactions were assessed, revealing promising high-performance candidates.
- - The researchers found that the synthesized alloy nanoparticles contain twin boundaries and exhibit lattice strain, which enhances their performance, particularly in the PtPd alloy due to unique adsorption characteristics and changes in electronic structure.
Article Abstract
The combination of different elements in alloy catalysts can lead to improved activity as it provides opportunities to tune the electronic structures of surface atoms. However, the synthesis and performance screening of alloy catalysts through a vast chemical space are cost- and labor-intensive. Herein, a UV-induced, high-throughput method is reported for the synthesis and screening of alloy electrocatalysts in a fast and low-cost manner. A platform that integrates 37 mini-reaction-cells enables simultaneous UV-induced photodeposition of alloy nanoparticles with up to 37 compositions. These mini-reaction-cells further allow a transfer-free, high-throughput electrochemical performance screening. Binary (PtPd, PtIr, PdIr), ternary (PtPdIr, PtRuIr) and quaternary (PtPdRuIr) alloys have been synthesized with the activity of the binary alloys (57 compositions) for hydrogen evolution reaction (HER) and oxygen reduction reaction (ORR) being screened. The predicted high performance of identified alloy compositions are subsequently validated by standard measurements using a rotating disk electrode configuration. It is found that the as-synthesized alloy nanoparticles are rich in twin boundaries and thus possess lattice strain. Density functional theory calculation implies that the high ORR activity of the screened PtPd alloy originates from the interplay between the differentiated adsorption sites because of alloying and the strain-induced modulation of the d-band center.
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| http://dx.doi.org/10.1002/smll.202406848 | DOI Listing |
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