Integration of amyloid nanowires in organic ...
Type de document :
Article dans une revue scientifique
DOI :
URL permanente :
Titre :
Integration of amyloid nanowires in organic solar cells
Auteur(s) :
Barrau, Sophie [Auteur]
Department of Physics, Chemistry and Biology [Linköping] [IFM]
Zhang, Fengling [Auteur]
Department of Physics, Chemistry and Biology [Linköping] [IFM]
Herland, A. [Auteur]
Department of Physics, Chemistry and Biology [Linköping] [IFM]
Mammo, W. [Auteur]
Department of Chemical and Biological Engineering
Andersson, M. R. [Auteur]
Department of Chemical and Biological Engineering
Inganäs, Olle [Auteur]
Department of Physics, Chemistry and Biology [Linköping] [IFM]
Department of Physics, Chemistry and Biology [Linköping] [IFM]
Zhang, Fengling [Auteur]
Department of Physics, Chemistry and Biology [Linköping] [IFM]
Herland, A. [Auteur]
Department of Physics, Chemistry and Biology [Linköping] [IFM]
Mammo, W. [Auteur]
Department of Chemical and Biological Engineering
Andersson, M. R. [Auteur]
Department of Chemical and Biological Engineering
Inganäs, Olle [Auteur]
Department of Physics, Chemistry and Biology [Linköping] [IFM]
Titre de la revue :
Applied Physics Letters
Nom court de la revue :
Appl. Phys. Lett.
Numéro :
93
Pagination :
023307
Éditeur :
AIP Publishing
Date de publication :
2008-07-14
Discipline(s) HAL :
Chimie/Matériaux
Résumé en anglais : [en]
Amyloid nanowires were incorporated in organic photovoltaic devices in order to enhance the transport properties. Amyloid fibrils act as a template for donor-acceptor materials. The current-voltage characteristics under ...
Lire la suite >Amyloid nanowires were incorporated in organic photovoltaic devices in order to enhance the transport properties. Amyloid fibrils act as a template for donor-acceptor materials. The current-voltage characteristics under illumination and in the dark display a maximum for the fill factor and the space charge limit current, respectively, at an amyloid nanowire-donor-acceptor mass ratio of 0.014:1:1, associated to a better charge transport in the donor-acceptor domains. The absorption experiments display a redshift associated to a more planar polymer backbone with increasing concentration of amyloid fibrils. Amyloid nanowires present a significant effect on the donor-acceptor materials organization.Lire moins >
Lire la suite >Amyloid nanowires were incorporated in organic photovoltaic devices in order to enhance the transport properties. Amyloid fibrils act as a template for donor-acceptor materials. The current-voltage characteristics under illumination and in the dark display a maximum for the fill factor and the space charge limit current, respectively, at an amyloid nanowire-donor-acceptor mass ratio of 0.014:1:1, associated to a better charge transport in the donor-acceptor domains. The absorption experiments display a redshift associated to a more planar polymer backbone with increasing concentration of amyloid fibrils. Amyloid nanowires present a significant effect on the donor-acceptor materials organization.Lire moins >
Langue :
Anglais
Audience :
Non spécifiée
Collections :
Date de dépôt :
2020-02-18T07:31:48Z
2020-02-20T08:49:28Z
2020-02-20T08:49:28Z