Examinando por Autor "Coya, C."

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Effect of Pristine Graphene on Methylammonium Lead Iodide Films and Implications on Solar Cell Performance
(ACS, 2021) Redondo-Obispo, C.; Serafini, P.; Climent-Pascual, E.; Ripolles, T.S.; Mora-Seró, I.; Andrés, A. de; Coya, C.
The relatively low stability of solar cells based on hybrid halide perovskites is the main issue to be solved for the implementation in real life of these extraordinary materials. Degradation is accelerated by temperature, moisture, oxygen, and light and mediated by halide easy hopping. The approach here is to incorporate pristine graphene, which is hydrophobic and impermeable to gases and likely limits ionic diffusion while maintaining adequate electronic conductivity. Low concentrations of few-layer graphene platelets (up to 24 × 10–3 wt %) were incorporated to MAPbI3 films for a detailed structural, optical, and transport study whose results are then used to fabricate solar cells with graphene-doped active layers. The lowest graphene content delays the degradation of films with time and light irradiation and leads to enhanced photovoltaic performance and stability of the solar cells, with relative improvement over devices without graphene of 15% in the power conversion efficiency, PCE. A higher graphene content further stabilizes the perovskite films but is detrimental for in-operation devices. A trade-off between the possible sealing effect of the perovskite grains by graphene, that limits ionic diffusion, and the reduction of the crystalline domain size that reduces electronic transport, and, especially, the detected increase of film porosity, that facilitates the access to atmospheric gases, is proposed to be at the origin of the observed trends. This work demonstrated how the synergy between these materials can help to develop cost-effective routes to overcome the stability barrier of metal halide perovskites, introducing active layer design strategies that allow commercialization to take off.
On the blue emission of a novel solution-processed stilbenoid dendrimer thin film for OLED displays
(Elsevier, 2008) Coya, C.; Andrés, A. de; Gómez, R.; Seoane, C.; Segura, J.L.
A novel blue fluorescent first generation stilbenoid dendrimer built on the 1,3,5-benzene core and endowed with a periphery of hexyloxy branches has been synthesized and is proposed as an active layer for organic light-emitting diodes processed by spin coating. In this work, we have obtained homogeneous thin films with blue emission (2.8 eV) by spin coating instead of the usual evaporation method used for low-weight molecular materials. The absorption and emission spectra of the films are analyzed and compared to that of the molecule. The obtained results show the dependence of the absorption and emission properties on the morphology and the dendrimer aggregation in the film. The effect of inter-dendrimer interactions leads to a broadening of the absorption bands and to a reduction of the threshold as the aggregation increases. The most efficient solid-state emission is for the films obtained from chloroform as solvent in the precursor solution.
The use of arc-erosion as a patterning technique for transparent conductive materials
(Elsevier, 2011) Jiménez-Trillo, J.; Alvarez, A.L.; Coya, C.; Céspedes, E.; Espinosa, A.
Within the framework of cost-effective patterning processes a novel technique that saves photolithographic processing steps, easily scalable to wide area production, is proposed. It consists of a tip-probe, which is biased with respect to a conductive substrate and slides on it, keeping contact with the material. The sliding tip leaves an insulating path (which currently is as narrow as 30 ¿m) across the material, which enables the drawing of tracks and pads electrically insulated from the surroundings. This ablation method, called arc-erosion, requires an experimental set up that had to be customized for this purpose and is described. Upon instrumental monitoring, a brief proposal of the physics below this process is also presented. As a result an optimal control of the patterning process has been acquired. The system has been used on different substrates, including indium tin oxide either on glass or on polyethylene terephtalate, as well as alloys like Au/Cr, and Al. The influence of conditions such as tip speed and applied voltage is discussed.