Tailoring melanins for bioelectronics: polycysteinyldopamine as an ion conducting redox-responsive polydopamine variant for pro-oxidant thin films

Nicola Fyodor Della Vecchia; Riccardo Marega; Marianna Ambrico; Mariagrazia Iacomino; Raffaella Micillo; Alessandra Napolitano; Davide Bonifazi; Marco d'Ischia

doi:10.1039/C5TC00672D

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Tailoring melanins for bioelectronics: polycysteinyldopamine as an ion conducting redox-responsive polydopamine variant for pro-oxidant thin films

Nicola Fyodor Della Vecchia, Riccardo Marega, Marianna Ambrico, Mariagrazia Iacomino, Raffaella Micillo, Alessandra Napolitano, Davide Bonifazi and Marco d'Ischia
J. Mater. Chem. C, 2015,3, 6525-6531
DOI: 10.1039/C5TC00672D, Paper

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Abstract | Cited by

Polycysteinyldopamine (pCDA), a red hair-inspired polydopamine-like polymer with ionic conductor behavior, can produce smooth and highly adhesive thin films and coatings on quartz, glass and other surfaces, and is shown to markedly accelerate the autoxidation of glutathione at physiological pH via an efficient redox exchange process.

Graphical abstract: Tailoring melanins for bioelectronics: polycysteinyldopamine as an ion conducting redox-responsive polydopamine variant for pro-oxidant thin films

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