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Electrochemically Grown Ultrathin Platinum Nanosheet Electrodes with Ultralow Loadings for Energy-Saving and Industrial-Level Hydrogen Evolution

Lei Ding, Zhiqiang Xie, Shule Yu, Weitian Wang, Alexander Terekhov, Brian K. Canfield, Christopher Capuano, Alex Keane, Kathy Ayers, David A. Cullen, Feng‐Yuan Zhang

2023Nano-Micro Letters39 citationsDOIOpen Access PDF

Abstract

Abstract Nanostructured catalyst-integrated electrodes with remarkably reduced catalyst loadings, high catalyst utilization and facile fabrication are urgently needed to enable cost-effective, green hydrogen production via proton exchange membrane electrolyzer cells (PEMECs). Herein, benefitting from a thin seeding layer, bottom-up grown ultrathin Pt nanosheets (Pt-NSs) were first deposited on thin Ti substrates for PEMECs via a fast, template- and surfactant-free electrochemical growth process at room temperature, showing highly uniform Pt surface coverage with ultralow loadings and vertically well-aligned nanosheet morphologies. Combined with an anode-only Nafion 117 catalyst-coated membrane (CCM), the Pt-NS electrode with an ultralow loading of 0.015 mg Pt cm −2 demonstrates superior cell performance to the commercial CCM (3.0 mg Pt cm −2 ), achieving 99.5% catalyst savings and more than 237-fold higher catalyst utilization. The remarkable performance with high catalyst utilization is mainly due to the vertically well-aligned ultrathin nanosheets with good surface coverage exposing abundant active sites for the electrochemical reaction. Overall, this study not only paves a new way for optimizing the catalyst uniformity and surface coverage with ultralow loadings but also provides new insights into nanostructured electrode design and facile fabrication for highly efficient and low-cost PEMECs and other energy storage/conversion devices.

Topics & Concepts

NanosheetMaterials sciencePlatinumElectrodeHydrogenHydrogen fuelElectrochemistryNanotechnologyChemical engineeringCatalysisChemistryEngineeringPhysical chemistryBiochemistryOrganic chemistryElectrocatalysts for Energy ConversionAdvanced battery technologies researchElectrochemical Analysis and Applications