Compositionally modulated FeMn bimetallic skeletons for highly efficient overall water splitting
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A simple one-step sulfidation of FeMnZn skeletons produced a bimetallic catalyst with hierarchical structures that exhibits superior performance for overall water splitting compared to noble metal catalysts.
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Abstract
Transition metal-based nanomaterials exhibit promising potential as highly active and low-cost electrocatalyst for alkaline water splitting, which can be achieved via elaborating compositional modulation and structural manipulation. This, however, normally involves multiple or even complex synthetic procedures. Herein, we report a simple one-step sulfidation of FeMnZn multi–metal skeletons for the preparation of highly efficient electrocatalysts. The incorporation of Mn and Zn induced hierarchical nano/micro sheet–to–sheet supported on open porous skeleton (FeMnZn/Mn-FeS, FMZS2), which not only facilitates electron/ion transport but also expands the accessible surface. Meanwhile, the Mn is introduced to optimize the adsorption/desorption ability of intermediates on the S sites in FeS. The resultant effect leads to remarkable electrocatalytic performance with good durability. Notably, the optimized FMZS2 delivers a 20 mA cm–2 at low overpotential of 118 mV for HER and a 100 mA cm–2 at overpotential of 390 mV for OER, outperfoming Pt/C and IrO2 catalyst, respectively. Moreover, the assembled alkaline electrolyzer also has good overall water splitting capability, which is better than that of the noble metal ones.
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- europepmc
- last seen: 2026-05-19T01:45:01.086888+00:00
- unpaywall
- last seen: 2026-06-04T02:00:05.705006+00:00