Immobilization of graphene-derived materials at gold surfaces: Towards a rational design of protein-based platforms for electrochemical and plasmonic applications
Author
dc.contributor.author
Primo, Emiliano N.
Author
dc.contributor.author
Bollo Dragnic, Soledad
Author
dc.contributor.author
Rubianes, María D.
Author
dc.contributor.author
Rivas, Gustavo A.
Admission date
dc.date.accessioned
2018-07-27T19:49:03Z
Available date
dc.date.available
2018-07-27T19:49:03Z
Publication date
dc.date.issued
2018
Cita de ítem
dc.identifier.citation
Electrochimica Acta Volumen: 259 Páginas: 723-732
es_ES
Identifier
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10.1016/j.electacta.2017.10.184
Identifier
dc.identifier.uri
https://repositorio.uchile.cl/handle/2250/150404
Abstract
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This work is focused on the critical analysis of the non-covalent modification of a thiolated-gold surface with different grapheneous materials and the covalent attachment of bovine serum albumin (BSA) as a model protein. The main goal was to find a relationship between the nature and amount of the grapheneous nanomaterial, the amount of immobilized protein, and the electrochemical and plasmonic properties of the resulting platforms. The characterization of the grapheneous nanomaterials (graphene oxide (GO), GO modified with chitosan (CHIT), (GO-CHIT), and chemically reduced GO-CHIT (RGO-CHIT)) was performed by using FTIR, Raman, TGA, Dynamic light scattering (DLS), UV-Vis spectroscopy and zeta-potential measurements. The characterization of the thiolated-gold surfaces modified with the different nanomaterials and BSA was performed using surface plasmon resonance (SPR), cyclic voltammetry, electrochemical impedance spectroscopy (EIS) and scanning electrochemical microscopy (SECM). The pH of the grapheneous materials dispersions demonstrated to be a critical parameter to control the assembly of the nanomaterials and the model protein at the gold surfaces and, consequently, the electroactivity and plasmonics of the resulting platforms. When using GO, the optimum pH is 8.00 while in the case of GO-CHIT and RGO-CHIT, pHs << pKa,(CHIT) are the most adequate. We demonstrated that in the case of our model system, if the detection method depends on the direct quantification of the amount of BSA immobilized at the platform (like SPR), the use of GO is the best option; while if the detection mode depends on the changes in the electrochemical response of a redox marker (like EIS), the selected grapheneous material should be RGO. (c) 2017 Elsevier Ltd. All rights reserved.
es_ES
Patrocinador
dc.description.sponsorship
CONICET
SECyT-UNC
ANPCyT (Argentina)
National Fund for Scientific and Technological Development-CHILE FONDECYT
1161225
National Fund for Scientific and Technological Development-CHILE FONDAP
15130011
Argentina-Chile International Collaboration Grant CONICYT/MINCYT
CH/13/03//PCCI130050
Immobilization of graphene-derived materials at gold surfaces: Towards a rational design of protein-based platforms for electrochemical and plasmonic applications