2023
DOI: 10.1021/acs.inorgchem.2c03707
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Rationally Designed Manganese-Based Metal–Organic Frameworks as Altruistic Metal Oxide Precursors for Noble Metal-Free Oxygen Reduction Reaction

Abstract: The sluggish oxygen reduction reaction (ORR) at the cathode is challenging and hinders the growth of hydrogen fuel cells. Concerning kinetic values, platinum is the best known catalyst for ORR; however, its less abundance, high cost, and corrosive nature warrant the development of low-cost catalysts. We report the hydrothermal synthesis of two novel Mn-based metal− organic frameworks (MOFs), [Mn 2 (DOT)(H 2 O) 2 ] n (Mn-SKU-1) and [Mn 2 (DOT) 2 (BPY) 2 (THF)] n (Mn-SKU-2) (DOT = 2,5dihydroxyterephthalate; BPY … Show more

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Cited by 5 publications
(2 citation statements)
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“…94.7% (after 40k s CA) [202] FeCoNi-CNTs 1.0 m KOH 0.82 V RHE 7.1 mA cm −2 (limited current density) 98.6% (after 40 h CA) [199] P-NS-MnO 2 @Mn 0.1 m KOH 0.87 V RHE 2.32 mA cm −2 (current density@0.88 V RHE ) 97.1% (after 10k s CA) [204] CoNi@NC 1.0 m KOH 0.83 V RHE 6.89 A g −1 (mass activity@0.83 V RHE ) − [205] NiCo/hCN 0.1 m KOH 0.84 V RHE 45.9 mA cm −2 (kinetic current density@0.85 V RHE ) 861 mW cm −2 (AEMFC power density) 88% (after 70 h) [206] FeCo-HNC/CNT 0.1 m KOH 0.902 V RHE 42.33 A g -1 (mass activity@0.85 V RHE ) No change after 10k CVs [207] [Mn 2 (DOT) 2 (BPY) 2 (THF)]n 0.1 m KOH 0.81 V RHE 6.0 mA cm −2 (current density@0.9 V RHE ) 90% (after 10 h) [208] CuMn 2 O 4 nano-octahedra/C 1.0 m KOH 0.881 V RHE 37.6 A g −1 (mass activity@ 0.85 V RHE ) 65.2% (after 10k CVs) [209] FeCo/NC-Mo 2 TiC 2 0.1 m KOH 0.887 V RHE 4.0 mA cm −2 (kinetic current density@0.9 V RHE ) 501 mW cm 2 (AEMFC power density)…”
Section: Discussionmentioning
confidence: 99%
“…94.7% (after 40k s CA) [202] FeCoNi-CNTs 1.0 m KOH 0.82 V RHE 7.1 mA cm −2 (limited current density) 98.6% (after 40 h CA) [199] P-NS-MnO 2 @Mn 0.1 m KOH 0.87 V RHE 2.32 mA cm −2 (current density@0.88 V RHE ) 97.1% (after 10k s CA) [204] CoNi@NC 1.0 m KOH 0.83 V RHE 6.89 A g −1 (mass activity@0.83 V RHE ) − [205] NiCo/hCN 0.1 m KOH 0.84 V RHE 45.9 mA cm −2 (kinetic current density@0.85 V RHE ) 861 mW cm −2 (AEMFC power density) 88% (after 70 h) [206] FeCo-HNC/CNT 0.1 m KOH 0.902 V RHE 42.33 A g -1 (mass activity@0.85 V RHE ) No change after 10k CVs [207] [Mn 2 (DOT) 2 (BPY) 2 (THF)]n 0.1 m KOH 0.81 V RHE 6.0 mA cm −2 (current density@0.9 V RHE ) 90% (after 10 h) [208] CuMn 2 O 4 nano-octahedra/C 1.0 m KOH 0.881 V RHE 37.6 A g −1 (mass activity@ 0.85 V RHE ) 65.2% (after 10k CVs) [209] FeCo/NC-Mo 2 TiC 2 0.1 m KOH 0.887 V RHE 4.0 mA cm −2 (kinetic current density@0.9 V RHE ) 501 mW cm 2 (AEMFC power density)…”
Section: Discussionmentioning
confidence: 99%
“…Therefore, designing a robust heterogeneous catalytic system addressing these entailing issues becomes crucial. Metal–organic frameworks (MOFs) are an important class of coordination polymers composed of organic linkers and metal ions forming an extended network of well-arranged metal nodes with permanent porosity. The robust crystalline framework, presence of a microenvironment, and cocatalytic sites alongside an array of arranged metal centers make MOFs a steadfast cost-effective heterogeneous catalyst for various important catalytic transformations. In this context, the design of an MOF-based catalytic system could pave an alternative heterogeneous approach toward the accessibility of biologically important imidazolidine motifs. Our previous studies include one-pot synthesis of β-arylsulfonamide and the C–N coupling reaction catalyzed using copper MOFs HKUST-1 and Cu-1D, respectively, wherein the clarity in the role of unsaturated Lewis acid sites was established. , We herein report the synthesis of a novel two-dimensional (2D) MOF with pre-existing coordinatively unsaturated sites (CUS) as an efficient ready-to-use heterogeneous catalyst for the synthesis of imidazolidine through aziridine bond cleavage in a single-pot using a nonchlorinated solvent system.…”
Section: Introductionmentioning
confidence: 99%