Thermal and aqueous stability improvement of graphene oxide enhanced diphenylalanine nanocomposites

Thermal and aqueous stability improvement of graphene oxide enhanced diphenylalanine nanocomposites

Nanocomposites of diphenylalanine (FF) and carbon based materials provide an opportunity to overcome drawbacks associated with using FF micro- and nanostructures in nanobiotechnology applications, in particular their poor structural stability in liquid solutions. In this study, FF/graphene oxide (GO...

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Veröffentlicht in:Science and technology of advanced materials 2017-01, Vol.18 (1), p.172-179
Hauptverfasser: Ryan, Kate, Neumayer, Sabine M., Maraka, Harsha Vardhan R., Buchete, Nicolae-Viorel, Kholkin, Andrei L., Rice, James H., Rodriguez, Brian J.
Format: Artikel
Sprache:eng
Schlagworte:
100 Materials
101 Self-assembly / Self-organized materials
103 Composites
104 Carbon and related materials
30 Bio-inspired and biomedical materials
aqueous stability
Bio-Inspired and Biomedical Materials
Diphenylalanine
Graphene
graphene oxide
Nanocomposites
Nanostructure
peptide nanotubes
Structural stability
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Zusammenfassung:Nanocomposites of diphenylalanine (FF) and carbon based materials provide an opportunity to overcome drawbacks associated with using FF micro- and nanostructures in nanobiotechnology applications, in particular their poor structural stability in liquid solutions. In this study, FF/graphene oxide (GO) composites were found to self-assemble into layered micro- and nanostructures, which exhibited improved thermal and aqueous stability. Dependent on the FF/GO ratio, the solubility of these structures was reduced to 35.65% after 30 min as compared to 92.4% for pure FF samples. Such functional nanocomposites may extend the use of FF structures to e.g. biosensing, electrochemical, electromechanical or electronic applications.
ISSN:1468-6996
1878-5514
DOI:10.1080/14686996.2016.1277504