Add to ORKGThe oxidation of substrates via the cleavage of thermodynamically strong C-H bonds is an essential part of mammalian metabolism. These reactions are predominantly carried out by enzymes that produce high-valent metal-oxido species, which are directly responsible for cleaving the C-H bonds. While much is known about the identity of these transient intermediates, the mechanistic factors that enable metal-oxido species to accomplish such difficult reactions are still incomplete. For synthetic metal-oxido species, C-H bond cleavage is often mechanistically described as synchronous, proton-coupled electron transfer (PCET). However, data have emerged that suggest that the basicity of the M-oxido unit is the key determinant in achieving enzymatic ...
The Shilov system is the first successful case to activate methane C-H bonds and convert it to Me de...
C–H activation by transition metal oxo complexes is a fundamental reaction in oxidative chemistry ca...
A density functional theory (DFT) study (BMK/6-31+G(d)) was initiated to investigate the activation...
The functionalization of C-H bonds is an essential reaction in biology and chemistry. Metalloenzymes...
Catalytic processes to generate (or oxidize) fuels such as hydrogen are underpinned by multiple prot...
High-valent metal-oxo complexes have been extensively studied over the years due to their intriguing...
Over the past decades metalloenzymes and their synthetic models have emerged as an area of increasin...
We describe herein the hydrogen-atom transfer (HAT)/proton-coupled electron-transfer (PCET) reactivi...
The mechanism of selective oxidation of aliphatic C–H groups with H<sub>2</sub>O<sub>2</sub> in the ...
Many transition metal complexes accomplish or catalyze the oxidation of C{single bond}H, O{single bo...
Proton-coupled electron transfer (PCET) events play a key role in countless chemical transformations...
The development of (bio)catalysts capable of selectively activating strong C-H bonds is a continuing...
Metal-superoxo species are ubiquitous in metalloenzymes and bioinorganic chemistry and are known for...
International audienceMetal hydrides are key intermediates in the catalytic reduction of protons and...
From PubMed via Jisc Publications RouterHistory: received 2021-04-08, accepted 2021-05-26Publication...
The Shilov system is the first successful case to activate methane C-H bonds and convert it to Me de...
C–H activation by transition metal oxo complexes is a fundamental reaction in oxidative chemistry ca...
A density functional theory (DFT) study (BMK/6-31+G(d)) was initiated to investigate the activation...
The functionalization of C-H bonds is an essential reaction in biology and chemistry. Metalloenzymes...
Catalytic processes to generate (or oxidize) fuels such as hydrogen are underpinned by multiple prot...
High-valent metal-oxo complexes have been extensively studied over the years due to their intriguing...
Over the past decades metalloenzymes and their synthetic models have emerged as an area of increasin...
We describe herein the hydrogen-atom transfer (HAT)/proton-coupled electron-transfer (PCET) reactivi...
The mechanism of selective oxidation of aliphatic C–H groups with H<sub>2</sub>O<sub>2</sub> in the ...
Many transition metal complexes accomplish or catalyze the oxidation of C{single bond}H, O{single bo...
Proton-coupled electron transfer (PCET) events play a key role in countless chemical transformations...
The development of (bio)catalysts capable of selectively activating strong C-H bonds is a continuing...
Metal-superoxo species are ubiquitous in metalloenzymes and bioinorganic chemistry and are known for...
International audienceMetal hydrides are key intermediates in the catalytic reduction of protons and...
From PubMed via Jisc Publications RouterHistory: received 2021-04-08, accepted 2021-05-26Publication...
The Shilov system is the first successful case to activate methane C-H bonds and convert it to Me de...
C–H activation by transition metal oxo complexes is a fundamental reaction in oxidative chemistry ca...
A density functional theory (DFT) study (BMK/6-31+G(d)) was initiated to investigate the activation...