MULTILAYER GRAPHENE NANOCOMPOSITE PRODUCED BY LASER IRRADIATION/CONDUCTIVE POLYMER/METAL NANOSTRUCTURES AND ITS APPLICATION AS ELECTRODE FOR THE ENZYMATIC AND NON-ENZYMATIC DETECTION OF GLUCOSE

MULTILAYER GRAPHENE NANOCOMPOSITE PRODUCED BY LASER IRRADIATION/CONDUCTIVE POLYMER/METAL NANOSTRUCTURES AND ITS APPLICATION AS ELECTRODE FOR THE ENZYMATIC AND NON-ENZYMATIC DETECTION OF GLUCOSE

The present invention relates to manufacturing a multilayer graphene electrode produced from the carbonization of a polymeric matrix by irradiating an infrared laser, later modified on the surface with a conductive polymer and metallic nanostructures. The nanocomposite is evaluated for the enzymatic...

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Hauptverfasser: DOMÍNGUEZ CRUZ Rocío Berenice, APARICIO MARTÍNEZ Eider Pedro, OSUNA GALINDO Velia Carolina, ESTRADA MORENO Iván Alziri, FLORES GALLARDO Sergio Gabriel, ZARAGOZA CONTRERAS Erasto Armando, VEGA RIOS Alejandro
Format: Patent
Sprache:eng ; spa
Schlagworte:
BASIC ELECTRIC ELEMENTS
CAPACITORS
CAPACITORS, RECTIFIERS, DETECTORS, SWITCHING DEVICES ORLIGHT-SENSITIVE DEVICES, OF THE ELECTROLYTIC TYPE
CHEMISTRY
COMPOUNDS THEREOF
ELECTRICITY
INORGANIC CHEMISTRY
INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIRCHEMICAL OR PHYSICAL PROPERTIES
MEASURING
METALLURGY
NON-METALLIC ELEMENTS
PHYSICS
TESTING
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Zusammenfassung:The present invention relates to manufacturing a multilayer graphene electrode produced from the carbonization of a polymeric matrix by irradiating an infrared laser, later modified on the surface with a conductive polymer and metallic nanostructures. The nanocomposite is evaluated for the enzymatic and non-enzymatic detection of glucose in the clinical range of up to 10 mM by cyclic voltammetry under pH 7.4 conditions, corresponding to biological fluids. Also, the multilayer graphene/conductive polymer/metal nanostructure nanocomposite is helpful as a support for the glucose oxidase enzyme for glucose detection. Further, it possesses high conductivity, biocompatibility, and a high surface area for trapping glucose-selective biomolecules and producing direct glucose oxidation on its surface by applying a controlled potential. El objeto de la presente invención consiste en la fabricación de un electrodo de grafeno multicapa producido a partir la carbonización de una matriz polimérica por la irradiación de un láser infrarojo, que posteriormente se modifica superficialmente con un polímero conductor y nanoestructuras metálicas. El nanocompuesto fue evaluado para la detección enzimática y no enzimática de glucosa en rango clínico de 0 a 10 mM por medio de voltamperometría ciclica en condiciones de pH 7.4, correspondiente a fluidos biológicos. Las propiedades eléctricas, biocompatibles y electroquímicas del nanocompuesto El nanocompuesto grafeno multicapa/polímero conductor/nanoestructuras metálicas se utilizó como soporte de la enzima glucosa oxidasa para la detección de glucosa. El nanocomposito proporcionado por la invención tiene la ventaja de contar con alta conductividad, biocompatibilidad y alta área superficial para atrapamiento de biomoléculas selectivas a glucosa y/o para producir la oxidación directa de glucosa sobre su superficie aplicando un potencial controlado.