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Authordc.contributor.authorMiranda Rojas, Sebastián 
Authordc.contributor.authorSierra Rosales, Paulina 
Authordc.contributor.authorMuñoz Castro, Alvaro 
Authordc.contributor.authorArratia Pérez, Ramiro 
Authordc.contributor.authorZagal Moya, José H. 
Authordc.contributor.authorMendizábal Emaldía, Fernando 
Admission datedc.date.accessioned2017-11-07T13:26:00Z
Available datedc.date.available2017-11-07T13:26:00Z
Publication datedc.date.issued2016
Cita de ítemdc.identifier.citationPhysical Chemistry Chemical Physics Volumen: 18 Número: 42 Páginas: 29516-29525 Nov 20|6es_ES
Identifierdc.identifier.other10.1039/c6cp06156g
Identifierdc.identifier.urihttps://repositorio.uchile.cl/handle/2250/145495
Abstractdc.description.abstractThe need of deeper insights regarding the inner working of catalysts represents a current challenge in the search of new ways to tune their activities towards new chemical transformations. Within this field, metallophthalocyanines-based (MPc) electrocatalysis has gained tremendous attention due to their versatility, low cost, great stability and excellent turn-over properties. In this concern, here we present a quantum chemical study of the formation of supramolecular complexes based on the adsorption of MPcs on gold substrates, and the effect of the substrate on their electrocatalytic properties. For this purpose, we used iron-(FePc), cobalt( CoPc) and copper-phthalocyanines (CuPc). To model the gold surface we used two gold clusters of different sizes, given by Au-26 and Au-58 accounting for gold electrode Au(111) surface. Thus, both electronic and binding strength features of the adsorption process between the complexes were analyzed in detail in order to gain a deeper description of the nature of the MPc-Au(111) formation, by using Density Functional Theory (DFT) calculations, at the PBE and TPSS levels including the dispersive contribution according to the Grimme approach (D3). Our results show that dispersion forces rule the MPc-gold interaction, with binding strengths ranging between 61 and 153 kcal mol(-1), in agreement to the reported experimental data. To provide a detailed picture of our findings we used the non-covalent interactions index (NCIs) analysis, which offers additional chemical insights regarding the forces that control their interaction strength. Finally, our calculations revealed that among the three MPcs, CuPc required less energy for its oxidation. However, the removal of the electron involves a tremendous decrease of the MPc-gold surface interaction strength thus suggesting its desorption, which would prevent the required reversibility of the redox reaction, explaining its low performance observed experimentally.es_ES
Patrocinadordc.description.sponsorshipFondecyt 1140503 1150629 110758 1150327 3130383 3140533 Universidad Andres Bello project DI-1323-16/R RC120001 NC120082es_ES
Lenguagedc.language.isoenes_ES
Publisherdc.publisherRoyal Soc Chemistryes_ES
Títulodc.titleCatalytic aspects of metallophthalocyanines adsorbed on gold-electrode. Theoretical exploration of the binding nature rolees_ES
Document typedc.typeArtículo de revista
dcterms.accessRightsdcterms.accessRightsAcceso a solo metadatoses_ES
Catalogueruchile.catalogadorlajes_ES
Indexationuchile.indexArtículo de publicación ISIes_ES


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