Add to ORKGThis contribution summarizes our recent efforts to unravel the radical chemistry of autoxidations. Abstraction of the weakly bonded αH-atom of the primary hydroperoxide product by chain carrying peroxyl radicals is identified as the source of major end products such as alcohol and ketone/aldehyde. In the case of cyclohexane autoxidation, this reaction is even responsible for the majority of ring-opened by-products. In a second part, different approaches to autoxidation catalysis are discussed, ranging from transition metal ion catalysis to organocatalysis with immobilized N-hydroxyphthalimid
Peroxy (RO2) and alkoxy (RO) radicals are prototypical intermediates in any hydrocarbon oxidation. I...
Aldehydes are common constituents of natural and polluted atmospheres, and their gas-phase oxidation...
We present a hypothesis that autoxidation (inter- and intramolecular hydrogen abstraction by peroxy ...
During the autoxidation of cyclohexane, abstraction of the αH-atom of the hydroperoxide product by c...
High-level ab initio calculations are used to identify the mechanism of secondary (and primary) alk...
Decades of research on the autooxidation of organic compounds have provided fundamental and practica...
Author Institution: York University; Wilfrid Laurier UniversityIsomerization of peroxyl radicals ROO...
Gas-phase autoxidation—regenerative peroxy radical formation following intramolecular hydrogen shift...
Straight chain alkanes with more than five carbons, emitted in cities due to incomplete combustion a...
The kinetics of the azobis(isobutyronitrile) initiated autoxidation of 1- and 2-methylnaphthalene ha...
Isoprene, C5H8, inserts about half of the non-methane carbon flux of biogenic origin into the atmosp...
International audienceA great number of organic compounds spontaneously form unstable peroxides by r...
The peracid oxidation of hydrocarbons in chlorinated solvents is a low yielding and poorly selective...
Efficient autoxidation of organic compounds typically requires that they possess double bonds or oxy...
A combined experimental and theoretical approach was used to study the thermal autoxidation of α-pin...
Peroxy (RO2) and alkoxy (RO) radicals are prototypical intermediates in any hydrocarbon oxidation. I...
Aldehydes are common constituents of natural and polluted atmospheres, and their gas-phase oxidation...
We present a hypothesis that autoxidation (inter- and intramolecular hydrogen abstraction by peroxy ...
During the autoxidation of cyclohexane, abstraction of the αH-atom of the hydroperoxide product by c...
High-level ab initio calculations are used to identify the mechanism of secondary (and primary) alk...
Decades of research on the autooxidation of organic compounds have provided fundamental and practica...
Author Institution: York University; Wilfrid Laurier UniversityIsomerization of peroxyl radicals ROO...
Gas-phase autoxidation—regenerative peroxy radical formation following intramolecular hydrogen shift...
Straight chain alkanes with more than five carbons, emitted in cities due to incomplete combustion a...
The kinetics of the azobis(isobutyronitrile) initiated autoxidation of 1- and 2-methylnaphthalene ha...
Isoprene, C5H8, inserts about half of the non-methane carbon flux of biogenic origin into the atmosp...
International audienceA great number of organic compounds spontaneously form unstable peroxides by r...
The peracid oxidation of hydrocarbons in chlorinated solvents is a low yielding and poorly selective...
Efficient autoxidation of organic compounds typically requires that they possess double bonds or oxy...
A combined experimental and theoretical approach was used to study the thermal autoxidation of α-pin...
Peroxy (RO2) and alkoxy (RO) radicals are prototypical intermediates in any hydrocarbon oxidation. I...
Aldehydes are common constituents of natural and polluted atmospheres, and their gas-phase oxidation...
We present a hypothesis that autoxidation (inter- and intramolecular hydrogen abstraction by peroxy ...