- 1-(Phenylamino)pseudo-mauveine: A new water soluble phenazine dye
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1-(Phenylamino)pseudo-mauveine was prepared by the oxidation of 1,3,5-tris(phenylamino)benzene and p-phenylenediamine with potassium dichromate. The absorption maximum of 535 nm is shifted hypsochromically by about 20 nm compared to that for pseudo-mauvei
- Plater, M. John,Jackson, Toby
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p. 437 - 442
(2014/08/05)
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- Kinetic and redox characteristics of semireduced species derived from phenosafranine in homogeneous aqueous and sodium dodecyl sulfate micellar media
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One-electron reduction of phenosafranine (PS+, 3,7-diamino-5-phenylphenazinium chloride), a phenazinium dye, has been studied in homogeneous aqueous and sodium dodecyl sulfate (SDS) micellar media, using the pulse radiolysis technique. The various reducing radicals employed for the study in homogeneous aqueous medium were eaq-, H., CO2.-, and isopropyl ketyl radicals (CH3)2.COH. Semireduced species generated by these reactions have been characterized by their absorption spectra, decay kinetics, and pKa. The one-electron reduction potential of PS+ was determined at pH 7 in homogeneous aqueous solution employing nitrobenzene (NB/NB.-) as the standard couple. One-electron reduction in SDS micellar medium and a detailed spectrophotometric investigation of the parent dye in this surfactant system was carried out in order to understand the dye-surfactant interactions in the micellar and premicellar media.
- Gawandi,Guha,Mohan,Mittal
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- Acid-base catalyzed photoinduced redox reactions of phenosafranin-EDTA system in photoelectrochemical cell
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The photogalvanic effect in phenosafranin-EDTA aqueous system has been studied at different pH.The photovoltage growth and decay curves follow the functional forms related to the relaxation times.Under the experimental conditions, the inverse of relaxation time or the rate of electrode reaction is pH-dependent.The rate constants (k) of forward and backward reactions at 25 deg C have been calculated.From the plot of log k versus pH, catalytic constants for H(+) and OH(-) have been determined.The calculated free energy of electron transfer across the electrode/electrolyte interface is about -5.66 kJ mol-1.
- Jana, Asok K.,Bhowmik, Benoy B.
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p. 351 - 355
(2007/10/02)
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