Role of oxidation state, ferryl-oxygen, and ligand architecture on the reactivity of popular high-valent FeIV= O species: A theoretical perspective
High-valent iron-oxo species are ubiquitous in nature and are present at the active site of
several metalloenzymes which perform challenging organic transformations. Mimicking …
several metalloenzymes which perform challenging organic transformations. Mimicking …
Influence of Equatorial Co-Ligands on the Reactivity of LFeIIIOIPh
D Lakk-Bogáth, D Pintarics, P Török, J Kaizer - Molecules, 2023 - mdpi.com
Previous biomimetic studies clearly proved that equatorial ligands significantly influence the
redox potential and thus the stability/reactivity of biologically important oxoiron …
redox potential and thus the stability/reactivity of biologically important oxoiron …
Synthesis, Characterization, and Reactivity of Bispidine-Iron (IV)-Tosylimido Species
Reported are the synthesis and detailed studies of the iron (IV)-tosylimido complexes of two
isomeric pentadentate bispidine ligands (bispidines are 3, 7-diazabicyclo [3.3. 1] nonane …
isomeric pentadentate bispidine ligands (bispidines are 3, 7-diazabicyclo [3.3. 1] nonane …
Mechanistic Insights into the Oxygen Atom Transfer Reactions by Nonheme Manganese Complex: A Computational Case Study on the Comparative Oxidative Ability …
Understanding the comparative oxidative abilities of high-valent metal-oxo/hydroxo/
hydroperoxo species holds the key to robust biomimic catalysts that perform desired organic …
hydroperoxo species holds the key to robust biomimic catalysts that perform desired organic …
A theoretical perspective on the reactivity of high-valent Mn-Oxo/nitrene species towards oxidative transformations
Metal-oxo species are ubiquitous in nature and play a pivotal role in various biological
functions. While the popular Fe IV= O/NTs species have been studied in detail over the …
functions. While the popular Fe IV= O/NTs species have been studied in detail over the …
[PDF][PDF] Deciphering the origin of million-fold reactivity observed for the open core diiron [HO-Fe III-O-Fe IV= O] 2+ species towards CH bond activation: role of spin …
M Ansari, D Senthilnathan, G Rajaraman - Chem. Sci, 2020 - academia.edu
High-valent metal–oxo species have been characterised as key intermediates in both heme
and non-heme enzymes that are found to perform efficient aliphatic hydroxylation …
and non-heme enzymes that are found to perform efficient aliphatic hydroxylation …
Unmasking the Iron–Oxo Bond of the [(Ligand)Fe-OIAr]2+/+ Complexes
GL Tripodi, J Roithová - Journal of the American Society for Mass …, 2022 - ACS Publications
ArIO (ArI= 2-(tBuSO2) C6H4I) is an oxidant used to oxidize FeII species to their FeIV-oxo
state, enabling hydrogen-atom transfer (HAT) and oxygen-atom transfer (OAT) reactions at …
state, enabling hydrogen-atom transfer (HAT) and oxygen-atom transfer (OAT) reactions at …
[HTML][HTML] Effect of Substituted Pyridine Co-Ligands and (Diacetoxyiodo) benzene Oxidants on the Fe (III)-OIPh-Mediated Triphenylmethane Hydroxylation Reaction
P Török, J Kaizer - Molecules, 2024 - mdpi.com
Iodosilarene derivatives (PhIO, PhI (OAc) 2) constitute an important class of oxygen atom
transfer reagents in organic synthesis and are often used together with iron-based catalysts …
transfer reagents in organic synthesis and are often used together with iron-based catalysts …
[PDF][PDF] Monitoring high-valent metal-oxo species with electrospray-mass spectrometry
GL Tripodi - 2024 - repository.ubn.ru.nl
The development of catalysts capable of promoting CH hydroxylation reactions under mild
conditions holds tremendous promise for addressing socioeconomic challenges related to …
conditions holds tremendous promise for addressing socioeconomic challenges related to …
[HTML][HTML] Deciphering the origin of million-fold reactivity observed for the open core diiron [HO–FeIII–O–FeIV Created by potrace 1.16, written by Peter Selinger 2001 …
M Ansari, D Senthilnathan, G Rajaraman - Chemical Science, 2020 - ncbi.nlm.nih.gov
High-valent metal–oxo species have been characterised as key intermediates in both heme
and non-heme enzymes that are found to perform efficient aliphatic hydroxylation …
and non-heme enzymes that are found to perform efficient aliphatic hydroxylation …