In the context of our research on stimuli-responsive polymers bearing the 2-( hydroxyimino) aldheyde (HIA) group, we have explored the photochemical behavior and physicochemical properties of a number of HIAs.Interpretation of the experimental data is supported by quantum mechanical calculations. HIAs are expected to undergo photoisomerization, chelate metal ions, yeld hydrogen-bonded dimers and oligomers, exhibit relatively low pKs, and form >C=NO radicals through OH hydrogen abstraction or oxidation of the oximate ion. Besides the well-established E/Z oxime photoisomerism, we observed a Norrish-Yang cyclization resulting in cyclobutanol oximes, to our knowledge not previously described in literature. The acidity, bon dissociation enthalpies, and electrochemical properties of the HIAs are compared with literature data of simple oximes. The results are discussed in relation to the many potential applications for HIAs, with emphasis on the synthesis of novel HIA-containing responsive polymers.
2-(Hydroxyimino)aldehydes: Photo- and Physicochemical Properties of a Versatile Functional Group for Monomer Design
D'Acunzo F;
2018
Abstract
In the context of our research on stimuli-responsive polymers bearing the 2-( hydroxyimino) aldheyde (HIA) group, we have explored the photochemical behavior and physicochemical properties of a number of HIAs.Interpretation of the experimental data is supported by quantum mechanical calculations. HIAs are expected to undergo photoisomerization, chelate metal ions, yeld hydrogen-bonded dimers and oligomers, exhibit relatively low pKs, and form >C=NO radicals through OH hydrogen abstraction or oxidation of the oximate ion. Besides the well-established E/Z oxime photoisomerism, we observed a Norrish-Yang cyclization resulting in cyclobutanol oximes, to our knowledge not previously described in literature. The acidity, bon dissociation enthalpies, and electrochemical properties of the HIAs are compared with literature data of simple oximes. The results are discussed in relation to the many potential applications for HIAs, with emphasis on the synthesis of novel HIA-containing responsive polymers.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.