Journal article
Advancing Catalysts by Stacking Fault Defects for Enhanced Hydrogen Production: A Review
Y Wang, T Wang, H Arandiyan, G Song, H Sun, Y Sabri, C Zhao, Z Shao, S Kawi
Advanced Materials | WILEY-V C H VERLAG GMBH | Published : 2024
Open access
Abstract
Green hydrogen, derived from water splitting powered by renewable energy such as solar and wind energy, provides a zero-emission solution crucial for revolutionizing hydrogen production and decarbonizing industries. Catalysts, particularly those utilizing defect engineering involving the strategical introduction of atomic-level imperfections, play a vital role in reducing energy requirements and enabling a more sustainable transition toward a hydrogen-based economy. Stacking fault (SF) defects play an important role in enhancing the electrocatalytic processes by reshaping surface reactivity, increasing active sites, improving reactants/product diffusion, and regulating electronic structure d..
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Grants
Awarded by University of Melbourne
Funding Acknowledgements
This study was financially supported by the Alfred Deakin Research Fellowship and the International Hydrogen Research Fellowship Program. Y.W. acknowledges the financial support from CSIRO, the Department of Climate Change, Energy, the Environment and Water (DCCEEW) Australian Government, and the Australian Hydrogen Research Network (AHRN). The authors acknowledge the Australian Research Council (DE230100327 and LP220200583). H.A. and Y.S. acknowledge the support from the DCCEEW International Clean Innovation Researcher Networks Grant (ICIRN000011).