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Impact of Hole Blocking Layer on the Performance of Solution-Processed Small Molecule Solar Cells

机译：空穴阻塞层对溶液加工小分子太阳能电池性能的影响

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In this study, we report the use of poly [(9,9-bis (30- (N,N-dimethylamino) propyl) -2,7-fluorene) -alt-2,7- (9,9-dioctylfluorene) (PFN) as hole blocking layer (HBL) in inverted small-molecule solar cells (SM-iOSCs) using a bulk heterojunction of p-DTS(FBTTh2)2 as donor material and PC70BM as acceptor material. The behavior of these devices is compared to those SM-iOSCs where the HBL was zinc oxide (ZnO). Under 1 sun illumination, devices exhibited a power conversion efficiency (PCE) of 6.75%. It is demonstrated, through analysis of the external quantum efficiency (EQE), abortion UV-vis and atomic force microscopy of the active layer, that charge transport is the limiting factor in the performance of the cells, directly affecting the short circuit current (JSC).

机译：在这项研究中，我们报告了使用聚[（9,9-双甲基氨基）丙基）-2,7-芴）-2,7-（9,9-二辛基氟烯）（PFN）使用P-DTS的本体异质结（FBTTH）作为倒小分子太阳能电池（SM-IOSC）中的空穴阻挡层（HBL） 2 的） 2 作为供体材料和PC 70 BM作为受体材料。将这些设备的行为与那些HBL是氧化锌（ZnO）的SM-IOSC进行比较。在1阳光照明下，器件表现出6.75％的电力转换效率（PCE）。通过分析有源层的外部量子效率（EQE），流产UV-VI和原子力显微镜的分析，该电荷传输是电池性能的限制因素，直接影响短路电流（J sc ）。

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《Latin America Electron Devices Conference》|2021年|1-4|共4页
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Magaly Ramírez-Como; Angel Sacramento; José G. Sánchez; Magali Estrada; Victor S. Balderrama; Lluis F. Marsal;
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Performance evaluation; Limiting; II-VI semiconductor materials; Photovoltaic cells; Short-circuit currents; Morphology; Zinc oxide;

机译：性能评估;限制;II-VI半导体材料;光伏电池;短路电流;形态;氧化锌;

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1. Impact of the Electron-Transport Layer on the Performance of Solution-Processed Small-Molecule Organic Solar Cells [J] . Long Guankui, Wan Xiangjian, Kan Bin, ChemSusChem . 2014,第8期

机译：电子传输层对溶液加工小分子有机太阳能电池性能的影响
2. Solution-processed TiO ₂ as a hole blocking layer in PEDOT:PSS/n-Si heterojunction solar cells [J] . Md. Enamul Karim, A.T.M. Saiful Islam, Yuki Nasuno, EPJ Photovoltaics . 2020,第1期

机译：解决方案处理的TIO _{2 作为PEDOT中的空穴阻挡层：PSS / N-Si异质结太阳能电池}
3. Highly efficient hybrid thin-film solar cells using a solution-processed hole-blocking layer [J] . Seo Ji Hoon, Kim Dong-Ho, Kwon Se-Hun, Physical chemistry chemical physics: PCCP . 2013,第6期

机译：使用溶液处理的空穴阻挡层的高效混合薄膜太阳能电池
4. Impact of the Hafnium Oxide as Hole Blocking Layer on the Performance of Organic Solar Cells [C] . Magaly Ramírez-Como, Angel Sacramento, José G. Sánchez, Latin America Electron Devices Conference . 2020

机译：氧化Ha作为空穴阻挡层对有机太阳能电池性能的影响
5. C60:LiF hole blocking layer for Bulk-Heterojunction solar cells. [D] . Gao, Dong. 2010

机译：用于体-异质结太阳能电池的C60：LiF空穴阻挡层。
6. Solution-Processed PEDOT:PSS/MoS2 Nanocomposites as Efficient Hole-Transporting Layers for Organic Solar Cells [O] . Madeshwaran Sekkarapatti Ramasamy, Ka Yeon Ryu, Ju Won Lim, 2019

机译：溶液处理的PEDOT：PSS / MoS2纳米复合材料作为有机太阳能电池的高效空穴传输层
7. Enhancing the performance of polymer solar cells using solution-processed copper doped nickel oxide nanoparticles as hole transport layer [O] . Shuai Huang, Yunhe Wang, Si Shen, 2019

机译：使用溶液加工铜掺杂氧化镍纳米粒子作为空穴传输层，增强聚合物太阳能电池的性能

Impact of Hole Blocking Layer on the Performance of Solution-Processed Small Molecule Solar Cells

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