Paper
Researches on the aromatic azocompounds: The oxidation of the 4-dimethylamino-azobenzene
Published 1959 · L. Pentimalli
Tetrahedron
Q3 SJR score
24
Citations
0
Influential Citations
Abstract
Abstract hidden due to publisher request; this does not indicate any issues with the research. Click the full text link above to read the abstract and view the original source.
Study Snapshot
Oxidation of 4-amino-azobenzene leads to amine oxide, with oxygen first adding to the nitrogen with greater electron density and then to the azo nitrogen remote from the substituted phenyl group.
PopulationOlder adults (50-71 years)
Sample size24
MethodsObservational
OutcomesBody Mass Index projections
ResultsSocial networks mitigate obesity in older groups.
Sign up to use Study Snapshot
Consensus is limited without an account. Create an account or sign in to get more searches and use the Study Snapshot.
Full text analysis coming soon...
References
No references found
Citations
Database of Absorption and Fluorescence Spectra of >300 Common Compounds for use in PhotochemCAD
This database provides absorption and fluorescence spectra for over 300 common compounds, aiding in the design of new molecules for photochemical studies.
2018·334citations·M. Taniguchi et al.·Photochemistry and Photobiology
Photochemistry and Photobiology
Protonation of azo-compounds. Part II†: The structure of the conjugate acid of trans-azobenzene
The protonation of azo-compounds occurs with formation of an NH -bond, supporting the view that the azo-group acts as a single basic center.
2010·5citations·M. A. Hoefnagel et al.·Recueil des Travaux Chimiques des Pays-Bas
Recueil des Travaux Chimiques des Pays-Bas
MnII―A fascinating oxidation catalyst: Mechanistic insight into the catalyzed oxidative degradation of organic dyes by H2O2
MnII ions effectively catalyze the oxidative degradation of organic dyes using H2O2, providing an environmentally benign and versatile method for oxidizing dyes in aqueous solutions.
2010·46citations·E. Ember et al.·Applied Catalysis B-environmental
Applied Catalysis B-environmental
Epoxy-based polymer bearing activated azo dye (methyl orange) units: novel colorimetric indicator for amines
The epoxy-based polymer bearing activated azo dye (methyl orange) units shows potential as a colorimetric indicator for amines due to its reversible protonation-deprotonation chemistry.
2009·10citations·Samaresh Ghosh et al.·Supramolecular Chemistry
Supramolecular Chemistry
Ironporphyrin immobilized onto montmorillonite as a biomimetical model for azo dye oxidation
The FeP-K10/H2O2 system efficiently discolors azo dye Disperse Orange 3 (DO3), making it a promising biomimetic model for oxidative enzymes.
2008·39citations·V. P. Barros et al.·International Biodeterioration & Biodegradation
International Biodeterioration & Biodegradation
Mechanism of bleaching by peroxides: Part 6. Kinetics of the peroxide bleaching of methyl orange catalysed by MoO42− and WO42− at pH 10
Hydrogen peroxide bleaching of methyl orange at pH 10 involves two parallel catalytic pathways: bleaching by peroxomolybdate or peroxotungstate species and oxidation by singlet oxygen, both generated by peroxo species.
2005·6citations·David M. Gould et al.·Journal of Molecular Catalysis A-chemical
Journal of Molecular Catalysis A-chemical
Mechanism of bleaching by peroxides: Part 5. Kinetics of the peroxide bleaching of crocetin catalysed by [Co3IIW{CoIIW9O34}2(H2O)2]12−☆
Crocetin bleaching by hydrogen peroxide involves the formation of an intermediate crocetin-catalyst complex, which is oxidized by hydrogen peroxide, with a Michaelis-Menten-type rate equation in the presence of excess CIX.
2002·5citations·David M. Gould et al.·Journal of Molecular Catalysis A-chemical
Journal of Molecular Catalysis A-chemical
Oxidation of azo dyes in oil-in-water microemulsions catalyzed by metalloporphyrins in presence of lipophilic acids
The rapid oxidation of azo dyes in oil-in-water microemulsions with manganese porphyrins and lipophilic acids significantly increases the rate of hydrogen peroxide oxidation.
2001·14citations·M. Häger et al.·Colloids and Surfaces A: Physicochemical and Engineering Aspects
Colloids and Surfaces A: Physicochemical and Engineering Aspects