Iron and manganese oxo complexes, oxo wall and beyond
High-valent metal–oxo species with multiply-bonded M–O groups have been proposed as
key intermediates in many biological and abiological catalytic oxidation reactions. These …
key intermediates in many biological and abiological catalytic oxidation reactions. These …
Heme and nonheme high-valent iron and manganese oxo cores in biological and abiological oxidation reactions
M Guo, T Corona, K Ray, W Nam - ACS Central Science, 2018 - ACS Publications
Utilization of O2 as an abundant and environmentally benign oxidant is of great interest in
the design of bioinspired synthetic catalytic oxidation systems. Metalloenzymes activate O2 …
the design of bioinspired synthetic catalytic oxidation systems. Metalloenzymes activate O2 …
Strategies for the direct catalytic valorization of methane using heterogeneous catalysis: challenges and opportunities
In this Perspective, we highlight the main challenges to be addressed in the development of
heterogeneous catalysts for the direct functionalization of methane. Along with our personal …
heterogeneous catalysts for the direct functionalization of methane. Along with our personal …
Computational approach to molecular catalysis by 3d transition metals: challenges and opportunities
Computational chemistry provides a versatile toolbox for studying mechanistic details of
catalytic reactions and holds promise to deliver practical strategies to enable the rational in …
catalytic reactions and holds promise to deliver practical strategies to enable the rational in …
Iron and copper active sites in zeolites and their correlation to metalloenzymes
Metal-exchanged zeolites are a class of heterogeneous catalysts that perform important
functions ranging from selective hydrocarbon oxidation to remediation of NO x pollutants …
functions ranging from selective hydrocarbon oxidation to remediation of NO x pollutants …
Dioxygen activation by nonheme iron enzymes with the 2-His-1-carboxylate facial triad that generate high-valent oxoiron oxidants
S Kal, L Que - JBIC Journal of Biological Inorganic Chemistry, 2017 - Springer
Abstract The 2-His-1-carboxylate facial triad is a widely used scaffold to bind the iron center
in mononuclear nonheme iron enzymes for activating dioxygen in a variety of oxidative …
in mononuclear nonheme iron enzymes for activating dioxygen in a variety of oxidative …
Fenton chemistry at aqueous interfaces
S Enami, Y Sakamoto… - Proceedings of the …, 2014 - National Acad Sciences
In a fundamental process throughout nature, reduced iron unleashes the oxidative power of
hydrogen peroxide into reactive intermediates. However, notwithstanding much work, the …
hydrogen peroxide into reactive intermediates. However, notwithstanding much work, the …
Mechanistic insights into substrate positioning that distinguish non-heme Fe (II)/α-ketoglutarate-dependent halogenases and hydroxylases
Non-heme iron halogenases and hydroxylases activate inert C–H bonds to selectively
catalyze the functionalization of diverse biological products under physiological conditions …
catalyze the functionalization of diverse biological products under physiological conditions …
Elucidation of the Fe(iv)=O intermediate in the catalytic cycle of the halogenase SyrB2
Mononuclear non-haem iron (NHFe) enzymes catalyse a broad range of oxidative reactions,
including halogenation, hydroxylation, ring closure, desaturation and aromatic ring cleavage …
including halogenation, hydroxylation, ring closure, desaturation and aromatic ring cleavage …
Mechanism of Oxidation of Ethane to Ethanol at Iron(IV)–Oxo Sites in Magnesium-Diluted Fe2(dobdc)
The catalytic properties of the metal–organic framework Fe2 (dobdc), containing open Fe (II)
sites, include hydroxylation of phenol by pure Fe2 (dobdc) and hydroxylation of ethane by its …
sites, include hydroxylation of phenol by pure Fe2 (dobdc) and hydroxylation of ethane by its …