Transition metal selenides stand out as promising candidates for efficient electrocatalytic water splitting. Leveraging the potential of Metal-organic frameworks (MOFs) has paved the way for developing catalysts showcasing superior electrocatalytic properties. Typically, MOF-derived selenides are crafted using self-sacrificing MOF template methodologies. Despite its conventional application, this approach proves to be energy-intensive, leading to challenges in accurately regulating both structure and component uniformity during the pyrolysis process. This intricacy calls for innovative strategies to enhance efficiency and precision in synthesizing these critical compounds for sustainable electrocatalysis applications.
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