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dc.contributor.authorRodríguez Méndez, María Luz 
dc.contributor.authorMedina Plaza, Cristina
dc.contributor.authorGarcía Hernández, Celia 
dc.contributor.authorRodríguez, Silvia
dc.contributor.authorGarcía Cabezón, Ana Cristina 
dc.contributor.authorPaniagua Albillos, David
dc.contributor.authorRodríguez Pérez, Miguel Ángel 
dc.contributor.authorSaja Sáez, José Antonio de
dc.date.accessioned2016-11-24T12:09:51Z
dc.date.issued2016
dc.identifier.citationJournal of Porphyrins and Phthalocyanines, Enero 2016, vol. 20, p. 1-8es
dc.identifier.issn1088-4246es
dc.identifier.urihttp://uvadoc.uva.es/handle/10324/21092
dc.descriptionProducción Científicaes
dc.description.abstractVoltammetric sensors based on phthalocyanines have been used to detect a variety of compounds. In this paper, the state of the art of sensors prepared using classical techniques will be revised. Then, new strategies to improve the performance of the sensors will be described using as example sensors chemically modified with lutetium bisphthalocyanine (LuPc2) dedicated to the detection of phenols of interest in the food industry. Classical LuPc2 carbon paste electrodes can detect phenols such as catechol, caffeic acid or pyrogallol with limits of detection in the range of 10-4–10-5 M. The performance can be improved by using nanostructured Langmuir–Blodgett (LB) or Layer by Layer (LbL) films. The enhanced surface to volume ratio produce an increase in the sensitivity of the sensors. Limits of detection of 10-5–10-7 M are attained, which are one order of magnitude lower than those obtained using conventional carbon paste electrodes. Moreover, these techniques can be used to coimmobilize two electrocatalytic materials in the same device. The limits of detection obtained in LB sensors combining LuPc2/AuNPs or LuPc2/CNT are further improved. Finally, the LB technique has been used to prepare biosensors where a phenol oxydase (such as tyrosinase or lacasse) is immobilized in a biomimetic environment that preserves the enzymatic activity. Moreover, LuPc2 can be co-immobilized with the enzyme in a lipidc film formed by arachidic acid (AA). LuPc2 can act as an electron mediator facilitating the electron transfer. These biomimetic sensors formed by LuPc2/AA/enzyme show Limits of detection of 10-8 M and an enhanced selectivity.es
dc.format.mimetypeapplication/pdfes
dc.language.isoenges
dc.publisherWorld Scientifices
dc.rights.accessRightsinfo:eu-repo/semantics/openAccesses
dc.subjectVoltammetric sensorses
dc.subjectPhthalocyaninees
dc.subjectBisphthalocyaninees
dc.subjectPhenolses
dc.subjectNanoparticleses
dc.subjectBiosensorses
dc.titleImprovement of electrocatalytic effect in voltammetric sensors based on phthalocyanineses
dc.typeinfo:eu-repo/semantics/articlees
dc.rights.holderWorld Scientifices
dc.identifier.doi10.1142/S1088424616500218es
dc.relation.publisherversionhttp://www.worldscientific.com/doi/abs/10.1142/S1088424616500218es
dc.identifier.publicationfirstpage1es
dc.identifier.publicationlastpage8es
dc.identifier.publicationtitleImprovement of electrocatalytic effect in voltammetric sensors based on phthalocyanineses
dc.identifier.publicationvolume20es
dc.peerreviewedSIes
dc.description.projectCM-P agradece a la Universidad de Valladolid por su beca PIF-UVa y CG-H por su contrato pre-doctoral JCYL (BOCYL-D-24112015-9).es
dc.description.projectMinisterio de Economía, Industria y Competitividad – FEDER (Grant CICYT AGL2012-33535)
dc.description.projectJunta de Castilla y León (programa de apoyo a proyectos de investigación - Ref. VA-032U13)


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