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W4212827810 abstract "As the application of electrocatalyst continues to expand, envisaging the hidden mechanisms occurring at various length scale affecting the catalytic efficiency became important. To enhance the stability of electrocatalyst and reduce the cost, it is of paramount importance to reveal the active site's dynamics (using in situ techniques for getting the real-time information) which directly affect the reactions such as oxygen evolution reaction, hydrogen evolution reaction, and so on. Since such reactions are crucial for many engineering and scientific applications, in situ characterization techniques are required, which could capture such reactions happening at a different length and time scale. This article analyzes the recent progress made in the field of electrocatalyst's characterization using in situ neutron techniques. The article also paves the future path and has delineated the future challenges involved in multiscale correlative techniques (e.g., neutron techniques in the combination of synchrotron or microscopic techniques) used for getting the multiscale (atomic to micrometer range) mechanistic information about the electrocatalyst's working and degradation." @default.
W4212827810 created "2022-02-24" @default.
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W4212827810 date "2022-06-01" @default.
W4212827810 modified "2023-10-16" @default.
W4212827810 title "Application of advanced nuclear analytical techniques for the electrocatalyst's characterization: Paving the path for mechanistic investigations" @default.
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W4212827810 doi "https://doi.org/10.1016/j.coelec.2022.100958" @default.
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