Titanium oxide:fullerene composite films as electron collector layer in organic solar cells and the use of an easy-deposition cathode

Used architecture of OPV cells with fullerene-doped titanium oxide thin film as electron collector layer and Field’s metal (low melting point Bi/In/Sn alloy) as electrode, as well as the J–V characteristics. [Display omitted] •OPVs cells based on either MEH–PPV or P3HT and PC71BM were prepared.•Full...

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Bibliographic Details
Published in:Optical materials 2014-06, Vol.36 (8), p.1336-1341
Main Authors: Pérez-Gutiérrez, Enrique, Maldonado, José-Luis, Nolasco, Jairo, Ramos-Ortíz, Gabriel, Rodríguez, Mario, Torre, Ulises Mendoza-De la, Meneses-Nava, Marco-Antonio, Barbosa-García, Oracio, García-Ortega, Héctor, Farfán, Norberto, Granados, Giovana, Santillan, Rosa, Juaristi, Eusebio
Format: Article
Language:English
Subjects:
Accumulators
Applied sciences
Bismuth base alloys
Cathodes
Collectors
Devices
Energy
Exact sciences and technology
Field’s metal
Fullerene
Fundamental areas of phenomenology (including applications)
Natural energy
Optical materials
Optics
Organic photovoltaics
Photovoltaic cells
Photovoltaic conversion
Physics
Solar cells
Solar cells. Photoelectrochemical cells
Solar energy
Titanium
Titanium oxide
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Summary:Used architecture of OPV cells with fullerene-doped titanium oxide thin film as electron collector layer and Field’s metal (low melting point Bi/In/Sn alloy) as electrode, as well as the J–V characteristics. [Display omitted] •OPVs cells based on either MEH–PPV or P3HT and PC71BM were prepared.•Fullerene-doped titanium oxide as electron transport layer was used.•Metal alloy of Bi/In/Sn known as Field’s metal was used as cathode.•Cathode was deposited by means of a vacuum-free process. Here is reported the use of a titanium oxide:fullerene (TiOx:PC71BM) composite film as electron collector layer in organic photovoltaic devices (OPV cells). OPV cells were fabricated under the bulk heterojunction architecture: the active layer was a blend of either the photoconductor polymer MEH–PPV or P3HT with the fullerene derivative PC71BM. As cathode the eutectic alloy of Bi, In and Sn, known as Field’s metal, was used. The melting point of this alloy is above 62°C, which makes it suitable for a vacuum-free deposition process and easy and fast device test. Cell fabrication and testing were carried out at normal room conditions. For OPV cells based on MEH–PPV, the composite thin electron collector layer improved the power conversion efficiency (η) from 1.12% to 2.07%, thus the η increase was about 85%. Meanwhile, for devices based on P3HT the use of the composite film improved the photocurrent in almost 1mA/cm2 and the efficiency slightly increase from 2.48% to 2.68%.
ISSN:0925-3467
1873-1252
DOI:10.1016/j.optmat.2014.03.024