Litcius/Paper detail

Comparing the reaction profiles of single iron catalytic sites in enzymes and in reticular frameworks for methane-to-methanol oxidation

Jenny G. Vitillo, Connie C. Lu, Aditya Bhan, Laura Gagliardi

2023Cell Reports Physical Science10 citationsDOIOpen Access PDF

Abstract

The design of synthetic inorganic catalysts mimicking the first coordination spheres of enzymatic cofactors often results in lower yields and selectivity than their biological counterparts. In this study, we exploit Kohn-Sham density functional methods to compare the reaction profiles of four single iron-based catalysts for the direct oxidation of methane to methanol: two biomimetic models based on two enzymes (cytochrome P450 and taurine dioxygenase [TauD]) and two synthetic reticular frameworks (iron-BEA zeolite and tri-iron oxo-center-based metal-organic framework). Both the biomimetic and inorganic catalysts show almost zero selectivity toward methanol for methane conversions >1% at ambient temperature. This study highlights that iron’s first coordination shell can influence selectivity toward methanol but to a limited extent. In the absence of methanol protection strategies, high selectivity can be reached only by mimicking the reaction microenvironment of enzymes beyond the first coordination shell of iron.

Topics & Concepts

SelectivityChemistryCatalysisMethanolAnaerobic oxidation of methaneDioxygenaseMethane monooxygenaseMethaneZeoliteInorganic chemistryEnzymeOrganic chemistryMetal-Catalyzed Oxygenation MechanismsMicrobial metabolism and enzyme functionMetal-Organic Frameworks: Synthesis and Applications