Matrix isolation and computational study of the photochemistry of p-azidoaniline.
Elena A Pritchina, Nina P Gritsan, Thomas Bally
Index: Phys. Chem. Chem. Phys. 8(6) , 719-27, (2006)
Full Text: HTML
Abstract
The photochemistry of p-azidoaniline was studied in argon matrices in the absence and presence of oxygen. With the help of quantum chemical calculations we were able to characterize the triplet p-aminophenylnitrene as well as the cis- and trans-p-aminophenylnitroso oxides. It was found that the latter two isomers can be interconverted by selective irradiation and that they are ultimately converted into p-nitroaniline. Although restricted wavefunctions of the nitroso oxides are unstable, CASSCF calculations turned up no evidence for the claimed diradical character of these compounds. Also we found no evidence for dioxaziridines as intermediates of the conversion of the nitroso oxides to p-nitroaniline.
Related Compounds
Related Articles:
[Study on immobilization of heparin on surface of Ti-O films and its antithrombogenicity].
2011-02-01
[Sheng Wu Yi Xue Gong Cheng Xue Za Zhi 28(1) , 86-9, (2011)]
2002-05-03
[J. Org. Chem. 67(9) , 3057-64, (2002)]
Preparation of a protein micro-array using a photo-reactive polymer for a cell-adhesion assay.
2003-08-01
[Biomaterials 24(18) , 3021-6, (2003)]
2003-03-01
[Biomaterials 24(6) , 915-26, (2003)]
2009-04-01
[J. Biomed. Mater. Res. A 89(1) , 24-35, (2009)]