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Mar 08, 2024
(Nanowerk Information) Transition metallic selenides have been thought-about to be a sensible choice for electrocatalytic water splitting. As well as, metal-organic frameworks (MOFs) have been used to make catalysts with good electrocatalytic capabilities. Historically, the MOF-derived selenides are produced by way of the self-sacrificing MOF template strategies. Nevertheless, this technique is high-energy consuming, and it’s troublesome to exactly management the construction and part homogeneity of the product throughout pyrolysis.
A analysis group of Wang-ting Lu, Fan Yu, and Yun Zheng from Jianghan College and Fuzhou College used two-dimensional (2D) layered metal-organic frameworks (MOFs) as self-sacrificial templates to create high-efficiency Selenium (Se)-containing electrocatalysts for total water splitting.
The findings revealed in Frontiers in Power (“Two-dimensional bimetallic selenium-containing metalorganic frameworks and their calcinated derivatives as electrocatalysts for total water splitting”).
By using the 2D-MOF as self-sacrificial template selenium-containing supplies had been produced by way of easy technique, which reveals the environment friendly exercise for total water splitting. (Picture: Frontiers Journals)
The crew adopted two methods to introduce Se component into the Co–Fe MOF, one being the etching of as-prepared MOF by SeO2 answer and the opposite, the changing of SCN− with SeCN− as the development unit. The electrochemical exercise of Se-containing electrocatalysts for catalyzing the hydrogen evolution response (HER) and oxygen evolution response (OER) is evaluated and additional mentioned.
The researchers discovered that each two Se introducing approaches can clearly enhance the HER efficiency throughout total water splitting. The excessive electrochemical efficiency could also be resulted from the distinctive 2D hierarchical porous construction and powerful synergistic impact between completely different elements within the materials.
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This work reveals that the rational design of layered MOFs with S- or Se-containing linkers as water splitting catalysts is a possible possibility for the event of economical and low-energy-consuming electrocatalysts. In the meantime, it gives an revolutionary method for the synthesis of MOF-based metallic selenides.
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