Photovoltaic Materials and Their Path toward Cleaner Energy

Mitrašinović, Aleksandar M.; Radosavljević, Milinko

doi:10.1002/gch2.202200146

Cited by 5 publications

(4 citation statements)

References 54 publications

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“…First-generation solar cells, notably those based on silicon, have shown remarkable durability, with some units still being operational decades after installation. This longevity is contrasted with the challenges that are faced by third-generation solar cells, particularly in maintaining internal stability over extended periods [ 121 ]. Technological advancements in the 21st century have brought significant developments in organic and hybrid photovoltaic research.…”

Section: Cross-materials Analysismentioning

confidence: 99%

“…These newer types of solar cells offer advantages such as lower production costs and a reduced environmental impact. However, their market adoption is hindered by their vulnerability to environmental factors like atmospheric conditions and biological agents, which can lead to rapid degradation [ 121 ]. The degradation rates for silicon and thin-film solar cells have been extensively documented since their commercial inception over fifty years ago.…”

Section: Cross-materials Analysismentioning

confidence: 99%

“…The degradation rates for silicon and thin-film solar cells have been extensively documented since their commercial inception over fifty years ago. Most manufacturers of photovoltaic modules offer warranties of 25 to 30 years, aligning with an expected power drop of less than 20% during that period [ 121 ]. Recent models of solar cells, manufactured post-2000, show varied but generally lower degradation rates across different types of silicon cells.…”

Section: Cross-materials Analysismentioning

confidence: 99%

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Advancements in Photovoltaic Cell Materials: Silicon, Organic, and Perovskite Solar Cells

Machín,

Márquez

2024

Materials

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The evolution of photovoltaic cells is intrinsically linked to advancements in the materials from which they are fabricated. This review paper provides an in-depth analysis of the latest developments in silicon-based, organic, and perovskite solar cells, which are at the forefront of photovoltaic research. We scrutinize the unique characteristics, advantages, and limitations of each material class, emphasizing their contributions to efficiency, stability, and commercial viability. Silicon-based cells are explored for their enduring relevance and recent innovations in crystalline structures. Organic photovoltaic cells are examined for their flexibility and potential for low-cost production, while perovskites are highlighted for their remarkable efficiency gains and ease of fabrication. The paper also addresses the challenges of material stability, scalability, and environmental impact, offering a balanced perspective on the current state and future potential of these material technologies.

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Section: Cross-materials Analysismentioning

confidence: 99%

Section: Cross-materials Analysismentioning

confidence: 99%

Section: Cross-materials Analysismentioning

confidence: 99%

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Advancements in Photovoltaic Cell Materials: Silicon, Organic, and Perovskite Solar Cells

Machín,

Márquez

2024

Materials

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“…In the process of generating electrical energy, PV systems have a wide range of versatile uses, from individual small power applications to commercial, industrial applications, due to the advantages of being a clean and green energy source since it does not produce harmful greenhouse gases, utilizing free raw materials, silent operation, ease of installation, low operating cost, low maintenance, not creating noise pollution, safe operation and customizable structure. [ 2 , 3 , 4 , 5 , 6 ] Due to these economic and environmental factors, PV power applications are a frequently preferred, promising, and modern technology being studied. [ 7 , 8 , 9 ] However, the initial cost, that is, the investment cost, of PV systems, which offer a long‐term clean solution to energy problems by converting solar energy into electrical energy, is high.…”

Section: Introductionmentioning

confidence: 99%

Parameter Extraction of Single, Double, and Triple‐Diode Photovoltaic Models Using the Weighted Leader Search Algorithm

Çetinbaş

2024

Global Challenges

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This study presents the parameter extraction of single, double, and triple‐diode photovoltaic (PV) models using the weighted leader search algorithm (WLS). The primary objective is to develop models that accurately reflect the characteristics of PV devices so that technical and economic benefits are maximized under all constraints. For this purpose, 24 models, 6 for two different PV cells, and 18 for six PV modules, whose experimental data are publicly available, are developed successfully. The second objective of this research is the selection of the most suitable algorithm for this problem. It is a significant challenge since the evaluation process requires using advanced statistical tools and techniques to determine the reliable selection. Therefore, seven brand‐new algorithms, including WLS, the spider wasp optimizer, the shrimp and goby association search, the reversible elementary cellular automata, the fennec fox optimization, the Kepler optimization, and the rime optimization algorithms, are tested. The WLS has yielded the smallest minimum, average, RMSE, and standard deviation among those. Its superiority is also verified by Friedman and Wilcoxon signed‐rank test based on 144 pairwise comparisons. In conclusion, it is demonstrated that the WLS is a superior algorithm in PV parameter extraction for developing accurate models.

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Theoretical Insights into the Effect of Conjugated Cores on Optical and Photovoltaic Properties of Small Molecule Acceptors for Organic Solar Cells

Yin,

Cai,

Wang

et al. 2023

ChemistrySelect

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The research of organic photovoltaic materials based on small molecules is receiving high attention from researchers of organic solar cells (OSCs) to continuously improve their power conversion efficiency (PCE). To enhance the PCE, we have designed four small molecule acceptors P3–P6 based on reported IDT(TCV)2 (P1) and IDTT(TCV)2 (P2), with different central aromatic fused rings, and tricyanoethylene (TCV) as the terminal acceptor unit. The ground‐state properties, excited‐state properties and photovoltaic properties of donor/acceptor blends are calculated by density functional theory and time‐dependent density functional theory. Also, the relationship between their photoelectric and structural properties has been discussed. The calculation results show that P5 and P6 can simultaneously increase open‐circuit voltages (Voc), fill‐factors (FF), and short circuit current (Jsc) due to their high lowest unoccupied molecular orbital, small energy gap and high charge collection efficiency. In terms of charge‐transfer mechanism, PTB7‐Th/P1–P6 can generate CT states through direct excitation and hot exciton, meanwhile there exist more opportunities of producing CT states via intermolecular electric field mechanism. Our results will provide theoretical guidance for further designing and synthesizing of acceptors to improve the performance of OSCs.

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Photovoltaic Materials and Their Path toward Cleaner Energy

Cited by 5 publications

References 54 publications

Advancements in Photovoltaic Cell Materials: Silicon, Organic, and Perovskite Solar Cells

Advancements in Photovoltaic Cell Materials: Silicon, Organic, and Perovskite Solar Cells

Parameter Extraction of Single, Double, and Triple‐Diode Photovoltaic Models Using the Weighted Leader Search Algorithm

Theoretical Insights into the Effect of Conjugated Cores on Optical and Photovoltaic Properties of Small Molecule Acceptors for Organic Solar Cells

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