Semitransparent Organic Photovoltaic Devices: Interface/Bulk Properties and Stability Issues

Paci, Barbara; Righi Riva, Flavia; Generosi, Amanda; Guaragno, Marco; Mangiacapre, Emanuela; Brutti, Sergio; Wagner, Michael; Distler, Andreas; Egelhaaf, Hans-Joachim

doi:10.3390/nano14030269

Cited by 3 publications

(1 citation statement)

References 81 publications

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“…Nevertheless, there are certain restrictions on how photovoltaic devices (solar cells) can absorb solar energy and convert it into electricity [5]. The most crucial requirements for solar cells are a high photon-to-electron conversion efficiency and affordable production costs, adding to these the lifetime, stability, availability, and performance of the materials on which they are based [6]. Although first-and second-generation silicon solar cells have shown themselves to be a successful evolving photovoltaic technology, their current high costs restrict them from being used widely around the world.…”

Section: Introductionmentioning

confidence: 99%

Impact of PCBM as a Third Component on Optical and Electrical Properties in Ternary Organic Blends

Hrostea,

Oajdea,

Leontie

2024

Polymers

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This paper investigates the influence of constituent weight ratios on optical and electrical properties, with a particular focus on the intrinsic properties (such as electrical mobility) of ternary organic blends, highlighting the role of a third component. The study explores novel donor:acceptor1:acceptor2 (D:A1:A2) matrix blends with photovoltaic potential, systematically adjusting the ratio of the two acceptors in the mixtures, while keeping constant the donor:acceptor weight ratio (D:A = 1:1.4). Herein, depending on this adjustment, six different samples of 100–400 nm thickness are methodically characterized. Optical analysis demonstrates the spectral complementarity of the component materials and exposes the optimal weight ratio (D:A1:A2 = 1:1:0.4) for the highest optical absorption coefficient. Atomic force microscopy (AFM) analysis reveals improved and superior morphological attributes with the addition of the third component (fullerene). In terms of the electrical mobility of charge carriers, this study finds that the sample in which A1 = A2 has the greatest recorded value [)]. This thorough study on ternary organic blends reveals the crucial relationship between acceptor ratios and the properties of the final blend, highlighting the critical function of the third component in influencing the intrinsic factors such as electrical mobility, offering valuable insights for the optimization of ternary organic solar cells.

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Section: Introductionmentioning

confidence: 99%

Impact of PCBM as a Third Component on Optical and Electrical Properties in Ternary Organic Blends

Hrostea,

Oajdea,

Leontie

2024

Polymers

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Recycling of Silicon-Based Photovoltaic Modules: Mediterranean Region Insight

Diez-Suarez,

Martínez-Benavides,

Manteca Donado

et al. 2024

Energies

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The rapid expansion of photovoltaic (PV) installations across Mediterranean Europe since 2007 has resulted in a substantial increase in the need for end-of-life (EoL) management strategies for monocrystalline PV modules. This paper reviews the technical challenges and opportunities associated with the recycling of PV modules, focusing on the physical, chemical, and thermal processes currently employed. Despite advancements in recycling technology, significant gaps remain in infrastructure and regulatory enforcement, particularly in Mediterranean countries. The recovery of valuable materials such as silicon, silver, and glass presents both economic and environmental benefits, although the costs of recycling remain a key barrier to widespread adoption. Our analysis suggests that optimizing these recycling processes could improve their profitability and scalability, enabling more effective resource recovery. The paper concludes with recommendations for policy and infrastructure development to support the sustainable management of PV waste across the Mediterranean region.

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High-Efficiency and High-Monochromaticity Semitransparent Organic Solar Cells Based on Optical Tamm States

Zhao,

Lin,

Zhou

et al. 2024

Photonics

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Semitransparent organic solar cells (ST-OSCs) have garnered more interest and stand out as promising candidates for next-generation solar energy harvesters with their unique advantages. However, challenges remain for the advancement of colorful ST-OSCs, such as enhancing the light absorption and transmittance without considerable power conversion efficiency (PCE) losses. Herein, an optical analysis of silver (Ag) electrodes and one-dimensional photonic crystals (1DPCs) was conducted by simulations, revealing the presence of optical Tamm states (OTSs) at the interface of Ag/1DPCs. Furthermore, the spectral and electrical properties were fine-tuned by modulating the OTSs through theoretical simulations, utilizing PM6:Y6 as the active layer. The structural parameters of the ST-OSCs were optimized, including the Ag layer thickness, the central wavelength of 1DPCs, the first WO3 layer thickness, and the pair number of WO3/LiF. The optimization resulted in the successful development of blue, violet-blue, and red ST-OSC devices, which exhibited transmittance peak intensities ranging from 31.5% to 37.9% and PCE losses between 1.5% and 5.2%. Notably, the blue device exhibited a peak intensity of 37.0% and a PCE of 15.24%, with only a 1.5% loss in efficiency. This research presents an innovative approach to enhancing the performance of ST-OSCs, achieving a balance between high transparency and high efficiency.

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Semitransparent Organic Photovoltaic Devices: Interface/Bulk Properties and Stability Issues

Cited by 3 publications

References 81 publications

Impact of PCBM as a Third Component on Optical and Electrical Properties in Ternary Organic Blends

Impact of PCBM as a Third Component on Optical and Electrical Properties in Ternary Organic Blends

Recycling of Silicon-Based Photovoltaic Modules: Mediterranean Region Insight

High-Efficiency and High-Monochromaticity Semitransparent Organic Solar Cells Based on Optical Tamm States

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