Eddie N. Armendáriz-Mireles scite author profile

Human beings are attempting to take advantage of renewable natural resources by using solar cells. These devices take the sun’s radiation and convert it into electrical energy. The issue with traditional silicon-based solar cells is their manufacturing costs and environmental problems. For this reason, alternatives have been developed within the solar cell field. One of these alternatives is the dye-sensitized solar cell (DSSC), also known as Grätzel solar cells. DSSCs are a type of solar cell that mimics photosynthesis. They have a photoanode, which is formed by a semiconductor film sensitized with a dye. Some of their advantages include low-cost manufacturing, eco-friendly materials use, and suitability for most environments. This review discusses four important aspects, with two related to the dye, which can be natural or synthetic. Herein, only natural dyes and their extraction methods were selected. On the other hand, this paper discusses the nanostructures used for DSSCs, the TiO2 nanostructure being the most reported; it recently reached an efficiency level of 10.3%. Finally, a review on the novelties in DSSCs technology is presented, where it is observed that the use of Catrin protein (cow brain) shows 1.45% of efficiency, which is significantly lower if compared to Ag nanoparticles doped with graphene that report 9.9% efficiency.

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Effect of additions of metal submicron particles on properties of alumina matrix composites

Rocha–Rangel

López-Hernández

Calles-Arriaga

et al. 2019

J. Mater. Res.

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Improving performance of ZnO flexible dye sensitized solar cell by incorporation of graphene oxide

Atanacio-Sánchez¹,

Pech-Rodríguez²,

Armendáriz-Mireles³

et al. 2020

Microsyst Technol

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Photocurrent generation by dye‐sensitized solar cells using natural pigments

Armendáriz-Mireles

Rocha–Rangel²,

Rico

et al. 2015

Biotech and App Biochem

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The development of photovoltaic panels has improved the conversion of solar radiation into electrical energy. This paper deals with the electrical and thermal characteristics (voltage, current, and temperature) of photovoltaic solar cells sensitized with natural pigments (dye-sensitized solar cell, DSSC) based on a titanium dioxide semiconductor. Several natural pigments (blackberry, beets, eggplant skin, spinach, flame tree flower, papaya leaf, and grass extracts) were evaluated to determine their sensitizing effect on titanium dioxide. The results showed the great potential of natural pigments for use in solar cells. The best results were obtained with the blackberry pigment, reaching a value of 7.1 mA current, open-circuit voltage (V ) of 0.72 V in 2 cm , and fill factor (ff) of 0.51 in the DSSC. This performance is well above than that currently offers by actual cells.

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Implementation of Taguchi method to investigate the effect of electrophoretic deposition parameters of SnO₂on dye sensitised solar cell performance

Zapata-Cruz

Armendáriz-Mireles

Rocha–Rangel

et al. 2019

Materials Technology

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