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4-(4-methylamino-phenylazo)-benzenesulfonic acid is an organic compound with the chemical formula C13H14N4O3S. It is a derivative of benzenesulfonic acid, featuring an azo group (-N=N-) connecting a 4-methylamino-phenyl ring to the benzene ring of the benzenesulfonic acid. This yellow crystalline solid is soluble in water and has various applications in the chemical industry, particularly as an intermediate in the synthesis of dyes and pigments. Its unique structure allows for the formation of colored compounds when combined with metal ions, making it a valuable component in the production of azo dyes.

5713-92-8

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5713-92-8 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 5713-92-8 includes 7 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 4 digits, 5,7,1 and 3 respectively; the second part has 2 digits, 9 and 2 respectively.
Calculate Digit Verification of CAS Registry Number 5713-92:
(6*5)+(5*7)+(4*1)+(3*3)+(2*9)+(1*2)=98
98 % 10 = 8
So 5713-92-8 is a valid CAS Registry Number.

5713-92-8Downstream Products

5713-92-8Relevant academic research and scientific papers

The mechanism of sonophotocatalytic degradation of methyl orange and its products in aqueous solutions

He, Yuanhua,Grieser, Franz,Ashokkumar, Muthupandian

scheme or table, p. 974 - 980 (2012/03/12)

In this study, it was found that a hybrid technique, sonophotocatalysis, is able to degrade a parent organic pollutant (methyl orange) as well as its by-products. The analysis of products formed during the whole degradation has demonstrated that the pH or the selection of oxidation process (sonolysis/photocatalysis/sonophotocatalysis) is able to control the degradation pathway. It was shown in the by-products analysis that the solution pH can alter the amount of each product generated during the sonophotocatalytic degradation. It was revealed that the different degradation rates of methyl orange and its products result from the solution pH and the nature of the organic products. Furthermore, a comparison of the data obtained from the oxidation processes on the degradation of the reaction intermediates identified the advantages of the combined system. It is concluded that sonophotocatalysis is capable of yielding a more complete and faster mineralization of organic pollutants than the individual processes. However, as in the degradation of the parent compound, the overall mineralization is lower than an additive effect (negative synergistic effect).

Visible light photo-oxidation of model pollutants using CaCu 3Ti4O12: An experimental and theoretical study of optical properties, electronic structure, and selectivity

Clark, Joanna H.,Dyer, Matthew S.,Palgrave, Robert G.,Ireland, Christopher P.,Darwent, James R.,Claridge, John B.,Rosseinsky, Matthew J.

supporting information; experimental part, p. 1016 - 1032 (2011/04/15)

Charge transfer between metal ions occupying distinct crystallographic sublattices in an ordered material is a strategy to confer visible light absorption on complex oxides to generate potentially catalytically active electron and hole charge carriers. CaCu3Ti4O12 has distinct octahedral Ti4+ and square planar Cu2+ sites and is thus a candidate material for this approach. The sol-gel synthesis of high surface area CaCu3Ti4012 and investigation of its optical absorption and photocatalytic reactivity with model pollutants are reported. Two gaps of 2.21 and 1.39 eV are observed in the visible region. These absorptions are explained by LSDA+U electronic structure calculations, including electron correlation on the Cu sites, as arising from transitions from a Cu-hybridized O 2p-derived valence band to localized empty states on Cu (attributed to the isolation of CuO4 units within the structure of CaCu3Ti4O12) and to a Ti-based conduction band. The resulting charge carriers produce selective visible light photodegradation of 4-chlorophenol (monitored by mass spectrometry) by Pt-loaded CaCu 3Ti4O12 which is attributed to the chemical nature of the photogenerated charge carriers and has a quantum yield comparable with commercial visible light photocatalysts.

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