Diseño de nuevos (bio)sensores electroquímico basados en el uso de compósitos de grafito modificados con grafeno y nanopartículas de magnetita

Tesis (Doctor en Ciencias Químicas)--Universidad Nacional de Córdoba. Facultad de Ciencias Químicas, 2014.

Bibliographic Details
Main Author: Comba, Fausto Nahuel
Other Authors: Rivas, Gustavo Adolfo
Format: doctoralThesis
Language:spa
Published: 2023
Subjects:
Online Access:http://hdl.handle.net/11086/547479
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author Comba, Fausto Nahuel
author2 Rivas, Gustavo Adolfo
author_facet Rivas, Gustavo Adolfo
Comba, Fausto Nahuel
author_sort Comba, Fausto Nahuel
collection Repositorio Digital Universitario
description Tesis (Doctor en Ciencias Químicas)--Universidad Nacional de Córdoba. Facultad de Ciencias Químicas, 2014.
format doctoralThesis
id rdu-unc.547479
institution Universidad Nacional de Cordoba
language spa
publishDate 2023
record_format dspace
spelling rdu-unc.5474792023-08-30T14:23:18Z Diseño de nuevos (bio)sensores electroquímico basados en el uso de compósitos de grafito modificados con grafeno y nanopartículas de magnetita Comba, Fausto Nahuel Rivas, Gustavo Adolfo Veglia, Alicia Viviana Genti de Raimondi, Susana Del Valle Rubianes, María Dolores Martínez, Luis Dante Biosensores Biosensores electroquímicos Nanopartículas Tesis (Doctor en Ciencias Químicas)--Universidad Nacional de Córdoba. Facultad de Ciencias Químicas, 2014. Fil: Comba, Fausto Daniel. Universidad Nacional de Córdoba. Facultad de Ciencias Químicas; Argentina. In this thesis were developed electrochemical sensors based on the employment of graphite powder composites modified either with electro-generated nanoparticles of Fe304 or graphene, for the quantification of bioanalytes of clinical relevance like hydrogen peroxide, glucose and dopamine. The excelent electrocatalytic properties of the Fe304 nanoparticles dispersed in the composite made possible the amperometric detection of hydrogen peroxide at very low potentials (-0,100 V) with the consequent improvement in the sensibility and selectivity of the sensor. The simultaneous incorporation of different proteins (insulin, glucose oxidase, ovolizocim, mucin, albumin and casein) and Fe304 in the composite allowed to obtain a drastic improvement in the reduction signal of hydrogen peroxide, due to the considerable increment in the exposed electrocatalytic surface area The presence of the proteins within the composite favors a more efficient dispersion of the Fe304 nanoparticles, which in turns produce a considerable increment in the exposed electrocatalytic surface area augmenting the electro-analytical signal. The synergic effect between the Fe304 nanoparticles and the proteins resulted in a significant decrease in the charge transfer resistance towards hydrogen peroxide reduction, thus, in an important increment in thesensitivity and repeatability of the amperometric response. This effect was highly dependent on the Fe304/protein proportions and protein nature. Due to the good response obtained with the aboye mentioned modified electrode for the amperometric reduction of hydrogen peroxide, we incorporated the enzyme glucose oxidase to obtain an amperometric biosensor for glucose. The analytical signal was obtained from the amperometric reduction of enzimatically-generated hydrogen peroxide. A sensitive, stable, reproducible and fast biosensor for the detection of glucose was obtained, allowing its use for direct quantification of glucose in human blood serum, with an excellent correlation with the conventional spectrophotometric technique. Another aspect addressed in this thesis was the study of a new electrode for the development of electrochemical sensors based in the incorporation of chemically reduced graphene oxide in graphite composites. Through the employment of medium exchange adsorptive stripping voltammetry, the determination of submicromoiar leveis of dopamine was achieved, even in excess of ascorbic acid and serotonin. The sensors proposed in this thesis, represent a strategy with a great potentiality for future development of electrochemical (bio)sensors using other biorecognition molecules and new transduction schemes. Fil: Comba, Fausto Daniel. Universidad Nacional de Córdoba. Facultad de Ciencias Químicas; Argentina. 2023-05-17T17:30:18Z 2023-05-17T17:30:18Z 2014 doctoralThesis http://hdl.handle.net/11086/547479 spa Atribución-NoComercial-CompartirIgual 4.0 Internacional http://creativecommons.org/licenses/by-nc-sa/4.0/
spellingShingle Biosensores
Biosensores electroquímicos
Nanopartículas
Comba, Fausto Nahuel
Diseño de nuevos (bio)sensores electroquímico basados en el uso de compósitos de grafito modificados con grafeno y nanopartículas de magnetita
title Diseño de nuevos (bio)sensores electroquímico basados en el uso de compósitos de grafito modificados con grafeno y nanopartículas de magnetita
title_full Diseño de nuevos (bio)sensores electroquímico basados en el uso de compósitos de grafito modificados con grafeno y nanopartículas de magnetita
title_fullStr Diseño de nuevos (bio)sensores electroquímico basados en el uso de compósitos de grafito modificados con grafeno y nanopartículas de magnetita
title_full_unstemmed Diseño de nuevos (bio)sensores electroquímico basados en el uso de compósitos de grafito modificados con grafeno y nanopartículas de magnetita
title_short Diseño de nuevos (bio)sensores electroquímico basados en el uso de compósitos de grafito modificados con grafeno y nanopartículas de magnetita
title_sort diseno de nuevos bio sensores electroquimico basados en el uso de compositos de grafito modificados con grafeno y nanoparticulas de magnetita
topic Biosensores
Biosensores electroquímicos
Nanopartículas
url http://hdl.handle.net/11086/547479
work_keys_str_mv AT combafaustonahuel disenodenuevosbiosensoreselectroquimicobasadosenelusodecompositosdegrafitomodificadoscongrafenoynanoparticulasdemagnetita