The green synthesis of highly conductive polyaniline by using two biological macromolecules, i.e laccase as biocatalyst, and DNA as template/dopant, was achieved in this work. Trametes versicolor laccase B (TvB) was found effective in oxidizing both aniline and its less toxic/mutagenic dimer N-phenyl-p-phenylenediamine (DANI) to conductive polyaniline. Reaction conditions for synthesis of conductive polyanilines were set-up, and structural and electrochemical properties of the two polymers were extensively investigated. When the less toxic aniline dimer was used as substrate, the polymerization reaction was faster and gave less-branched polymer. DNA was proven to work as hard template for both enzymatically synthesized polymers, conferring them a semi-ordered morphology. Moreover, DNA also acts as dopant leading to polymers with extraordinary conductive properties (∼6 S/cm). It can be envisaged that polymer properties are magnified by the concomitant action of DNA as template and dopant. Herein, the developed combination of laccase and DNA represents a breakthrough in the green synthesis of conductive materials

Green synthesis of conductive polyaniline by Trametes versicolor laccase using a DNA template / Giacobbe, S.; Pezzella, C.; Della Ventura, B.; Giacobelli, V. G.; Fontanarosa, Carolina; Amoresano, A.; Sannia, G.; Velotta, R.; Piscitelli, A.; Rossi, M.. - In: ENGINEERING IN LIFE SCIENCES. - ISSN 1618-0240. - 19:9(2019), pp. 631-642. [10.1002/elsc.201900078]

Green synthesis of conductive polyaniline by Trametes versicolor laccase using a DNA template

Giacobbe S.;Pezzella C.
;
Della Ventura B.;Giacobelli V. G.;Fontanarosa, Carolina;Amoresano A.;Sannia G.;Velotta R.;Piscitelli A.;Rossi M.
2019

Abstract

The green synthesis of highly conductive polyaniline by using two biological macromolecules, i.e laccase as biocatalyst, and DNA as template/dopant, was achieved in this work. Trametes versicolor laccase B (TvB) was found effective in oxidizing both aniline and its less toxic/mutagenic dimer N-phenyl-p-phenylenediamine (DANI) to conductive polyaniline. Reaction conditions for synthesis of conductive polyanilines were set-up, and structural and electrochemical properties of the two polymers were extensively investigated. When the less toxic aniline dimer was used as substrate, the polymerization reaction was faster and gave less-branched polymer. DNA was proven to work as hard template for both enzymatically synthesized polymers, conferring them a semi-ordered morphology. Moreover, DNA also acts as dopant leading to polymers with extraordinary conductive properties (∼6 S/cm). It can be envisaged that polymer properties are magnified by the concomitant action of DNA as template and dopant. Herein, the developed combination of laccase and DNA represents a breakthrough in the green synthesis of conductive materials
2019
Green synthesis of conductive polyaniline by Trametes versicolor laccase using a DNA template / Giacobbe, S.; Pezzella, C.; Della Ventura, B.; Giacobelli, V. G.; Fontanarosa, Carolina; Amoresano, A.; Sannia, G.; Velotta, R.; Piscitelli, A.; Rossi, M.. - In: ENGINEERING IN LIFE SCIENCES. - ISSN 1618-0240. - 19:9(2019), pp. 631-642. [10.1002/elsc.201900078]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/765380
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