Blueberries as a Source of Energy: Physical Chemistry Characterization of Their Anthocyanins as Dye-Sensitized Solar Cells’ Sensitizers

Montagni, Tatiana; Chialanza, Mauricio Rodríguez; Cerdá, Marı́a Fernanda

doi:10.3390/solar3020017

Cited by 7 publications

(2 citation statements)

References 67 publications

(83 reference statements)

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“…The large surface area of electrospun carbon nanofibers enables effective immobilization of dye molecules, resulting in increased light collection efficiency for the device [100]. The high electrical conductivity of the carbon nanofibers facilitates efficient electron transport from the photoanode to the counter electrode, minimizing electron recombination losses and improving the overall efficiency of the device [101]. The random arrangement of the nanofibers helps to scatter and trap light, increasing the optical path length The nanofiber network provides a three-dimensional structure that enhances dye absorption and electron transport, leading to higher device performance [99].…”

Section: Dye-sensitized Solar Cells (Dsscs)mentioning

confidence: 99%

A Recent Review of Electrospun Porous Carbon Nanofiber Mats for Energy Storage and Generation Applications

Mamun,

Kiari,

Sabantina

2023

Membranes

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Electrospun porous carbon nanofiber mats have excellent properties, such as a large surface area, tunable porosity, and excellent electrical conductivity, and have attracted great attention in energy storage and power generation applications. Moreover, due to their exceptional properties, they can be used in dye-sensitized solar cells (DSSCs), membrane electrodes for fuel cells, catalytic applications such as oxygen reduction reactions (ORRs), hydrogen evolution reactions (HERs), and oxygen evolution reactions (OERs), and sensing applications such as biosensors, electrochemical sensors, and chemical sensors, providing a comprehensive insight into energy storage development and applications. This study focuses on the role of electrospun porous carbon nanofiber mats in improving energy storage and generation and contributes to a better understanding of the fabrication process of electrospun porous carbon nanofiber mats. In addition, a comprehensive review of various alternative preparation methods covering a wide range from natural polymers to synthetic carbon-rich materials is provided, along with insights into the current literature.

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Section: Dye-sensitized Solar Cells (Dsscs)mentioning

confidence: 99%

A Recent Review of Electrospun Porous Carbon Nanofiber Mats for Energy Storage and Generation Applications

Mamun,

Kiari,

Sabantina

2023

Membranes

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“…These natural pigments, abundant in fruits and plant tissues, are recognized for exceptional light-absorbing properties. Seminal previous works in 2023 highlight the efficacy of anthocyanins from diverse sources (Aziza et al, 2023;Montagni et al, 2023;Rajoriya et al, 2023;Shukor et al, 2023;Soosairaj et al, 2023;Yadav et al, 2023). The chemical structure of anthocyanins, with conjugated double bonds and hydroxyl groups, facilitates efficient light absorption and charge transfer in solar cells.…”

Section: Introductionmentioning

confidence: 99%

Unlocking the potential of anthocyanin-based dye-sensitized solar cells: Strategies for enhancing efficiency, stability, and economic viability

Suyitno,

Muqoffa,

Marlina

et al. 2024

JART

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This study investigates the feasibility and potential of anthocyanins as natural dyes in dye-sensitized solar cells (DSSCs). The focus is on the efficiency, stability, and economic viability of using anthocyanins as green alternatives in renewable energy technology. While anthocyanins offer controlled modification of optical properties at a low cost, there are challenges to overcome in achieving high efficiency, long-term stability, and commercial affordability. The study analyzes recent research developments and proposes strategies to enhance efficiency, stability, and economic viability. Optimization techniques, such as dye mixing and co-pigmentation, as well as modifications to dye structure and protective coatings, are explored. Economic considerations, availability, scalability, and innovative approaches like dye engineering and novel device architectures are discussed. The findings highlight the potential of anthocyanin-based DSSCs as a sustainable and economically viable solar energy technology. The study concludes with recommendations for future research to overcome challenges and advance the field of anthocyanin-based DSSCs.

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Assessment of bio-active materials with different electrolytes to enhance the green energy production in dye sensitized solar cells

Soosairaj,

Pabba,

Gunasekaran

et al. 2024

Appl. Phys. A

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Blueberries as a Source of Energy: Physical Chemistry Characterization of Their Anthocyanins as Dye-Sensitized Solar Cells’ Sensitizers

Cited by 7 publications

References 67 publications

A Recent Review of Electrospun Porous Carbon Nanofiber Mats for Energy Storage and Generation Applications

A Recent Review of Electrospun Porous Carbon Nanofiber Mats for Energy Storage and Generation Applications

Unlocking the potential of anthocyanin-based dye-sensitized solar cells: Strategies for enhancing efficiency, stability, and economic viability

Assessment of bio-active materials with different electrolytes to enhance the green energy production in dye sensitized solar cells

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