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Engineering Mono- vs Dinuclear Iron(II)-Active Sites to Steer Liquid Oxygenate Selectivity in Methane Oxidation Pathways Using O<sub>2</sub>

Poorvi Gupta, Manav Chauhan, Bharti Rana, Rahul Kalita, Rishabh Maurya, Kuntal Manna

2025Journal of the American Chemical Society11 citationsDOI

Abstract

The selective oxidation of methane to liquid oxygenates using O 2 under mild conditions remains a grand challenge due to the chemical inertness of methane and the competing thermodynamically favored overoxidation. We report the development of well-defined mono- and dinuclear bipyridyl Fe(II) hydroxyl species within a porous metal–organic framework [MOF-253(Al)], which enable methane oxidation by O 2 via distinct oxidation pathways with exceptionally high product selectivity. The MOF-supported dinuclear Fe(II) catalyst (MOF-253-Fe 2 ) having a [(bpy)Fe II (μ 2 –OH)(OH)] 2 active site achieves 100% liquid selectivity toward acetic acid with a productivity of 2757 mmol CH3CO2H mol Fe –1 h –1 at 160 °C. In comparison, the MOF-supported mononuclear (bpy)Fe II (OH) 2 catalyst (MOF-253-Fe) exhibits a remarkably high methanol productivity of 6060 mmol CH3OH mol Fe –1 h –1 with 96% selectivity in the aqueous phase at 95 °C. Spectroscopic and mechanistic studies suggested that the confinement and stabilization of [(bpy)Fe II (μ 2 –OH)(OH)] 2 active site in the MOF-253-Fe 2 framework facilitate redox cooperativity and multielectron transfer, enabling sequential O 2 activation, methane C–H bond activation, followed by C–C bond coupling with in situ -generated CO to yield acetic acid through the formation of [(bpy)Fe III (μ 2 –OH)(OH) 2 ] 2 catalytic intermediate. In contrast, the MOF-253-Fe catalyst lacks such synergy but efficiently promotes methane C–H hydroxylation to yield methanol. This work underscores the importance of active site engineering in governing product selectivity and provides valuable insights into the design of advanced catalysts for selective methane functionalization.

Topics & Concepts

ChemistryOxygenateSelectivityMethaneAnaerobic oxidation of methaneActive oxygenInorganic chemistryChemical engineeringOrganic chemistryCatalysisEngineeringMetal-Catalyzed Oxygenation MechanismsAdvanced oxidation water treatmentElectrocatalysts for Energy Conversion