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W3185920819 endingPage "2101226" @default.
W3185920819 startingPage "2101226" @default.
W3185920819 abstract "Selenium(Se)-based solar cells (SSCs), known as one of the oldest solar cells, have regained intense attention due to the advantages of Se including direct bandgap, good stability, and single absorber. Among all kinds of device structures, conventional n-i-p SSCs with top organic hole transport layers (HTLs) show great potential since organic HTLs could be well-designed to smoothly extract holes from the Se single absorber and protect the Se surface. However, till now, the performance of Se solar cells with organic HTLs is not as good as expected. To address this issue, herein, the SSCs are first presented with organic polymers as the HTLs with the improved efficiency up to 4.3%, which is the highest one in organic HTLs-based SSCs. Additionally, comparing with perovskite solar cells, it is found that the recombination process is the key factor that influences the performance of SSCs. It is believed that the further optimization of the Se active layer and the design of new and suitable organic HTLs for SSCs should be the main focus to suppress the undesired recombination processes of Se films. Such realization would boost the efficiency of the as-fabricated SSCs." @default.
W3185920819 created "2021-08-02" @default.
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W3185920819 date "2021-07-29" @default.
W3185920819 modified "2023-10-17" @default.
W3185920819 title "Employing Equivalent Circuit Models to Study the Performance of Selenium‐Based Solar Cells with Polymers as Hole Transport Layers" @default.
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W3185920819 doi "https://doi.org/10.1002/smll.202101226" @default.
W3185920819 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34323356" @default.
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