Flexible High-Performance and Solution-Processed Organic Photovoltaics with Robust Mechanical Stability

Sun Yanna; Meng Lingxian; Wan Xiangjian; Guo Ziqi; Ke Xin; Sun Zhenhe; Zhao Kai; Zhang Hongtao; Li Chenxi; Chen Yongsheng

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Flexible High-Performance and Solution-Processed Organic Photovoltaics with Robust Mechanical Stability

机译：灵活的高性能和解决方案加工有机光伏，具有稳健的机械稳定性

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Among the various advantages of organic photovoltaics (OPVs), the key one is their ability to be a highly flexible renewable energy source. However, the power conversion efficiencies for flexible OPV devices still lag behind those of their rigid counterparts, and their mechanical stability cannot meet the requirements for practical applications at present. These, in particular, depend on flexible transparent electrodes (FTEs). Here, a high-quality FTE (called FlexAgNE), with the simultaneously combined excellent characteristics, has been tested with a series of efficient active materials for flexible OPV devices, and high performance comparable with rigid counterparts has been achieved. In addition, due to the synergistic effect of FlexAgNE and the upper ZnO transport layer, including strong binding between the polyethylene terephthalate substrate and a hydrophilic polyelectrolyte (the key component of FlexAgNE), together with the capillary force effect of crossed silver nanowires and tight filling of ZnO, the flexible devices demonstrate robust mechanical stability even under extreme bending or folding conditions.

机译：在有机光伏（OPV）的各种优点中，关键是它们能够成为高度灵活的可再生能源。然而，灵活的OPV器件的功率转换效率仍然落后于其刚性对应物的效率，并且它们的机械稳定性不能满足目前对实际应用的要求。这些尤其取决于柔性透明电极（FTE）。这里，具有同时组合优异的特性的高质量FTE（称为FlexAGNe），并通过一系列有效的OPV器件进行了一系列有效的活性材料来测试，并且已经实现了与刚性对应物相当的高性能。另外，由于柔性糖和上ZnO传输层的协同效应，包括聚对苯二甲酸乙二醇酯基材和亲水性聚电解质（柔性纤维的亲水聚电解质（柔性聚电解质（柔性关键部件）之间的强粘合，以及交叉的银纳米线和紧密填充的毛细管力效应ZnO，柔性器件即使在极端弯曲或折叠条件下也表现出稳健的机械稳定性。

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来源
《Advanced Functional Materials 》 |2021年第16期| 2010000.1-2010000.8| 共8页
作者
Sun Yanna; Meng Lingxian; Wan Xiangjian; Guo Ziqi; Ke Xin; Sun Zhenhe; Zhao Kai; Zhang Hongtao; Li Chenxi; Chen Yongsheng;
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Nankai Univ Coll Chem State Key Lab Tianjin 300071 Peoples R China|Nankai Univ Coll Chem Ctr Nanoscale Sci & Technol Inst Elementoorgan Chem Tianjin 300071 Peoples R China|Nankai Univ Coll Chem Renewable Energy Convers & Storage Ctr RECAST Key Lab Funct Polymer Mat Tianjin 300071 Peoples R China;

Nankai Univ Coll Chem State Key Lab Tianjin 300071 Peoples R China|Nankai Univ Coll Chem Ctr Nanoscale Sci & Technol Inst Elementoorgan Chem Tianjin 300071 Peoples R China|Nankai Univ Coll Chem Renewable Energy Convers & Storage Ctr RECAST Key Lab Funct Polymer Mat Tianjin 300071 Peoples R China;

Nankai Univ Coll Chem State Key Lab Tianjin 300071 Peoples R China|Nankai Univ Coll Chem Ctr Nanoscale Sci & Technol Inst Elementoorgan Chem Tianjin 300071 Peoples R China|Nankai Univ Coll Chem Renewable Energy Convers & Storage Ctr RECAST Key Lab Funct Polymer Mat Tianjin 300071 Peoples R China;

Nankai Univ Coll Chem State Key Lab Tianjin 300071 Peoples R China|Nankai Univ Coll Chem Ctr Nanoscale Sci & Technol Inst Elementoorgan Chem Tianjin 300071 Peoples R China|Nankai Univ Coll Chem Renewable Energy Convers & Storage Ctr RECAST Key Lab Funct Polymer Mat Tianjin 300071 Peoples R China;

Nankai Univ Coll Chem State Key Lab Tianjin 300071 Peoples R China|Nankai Univ Coll Chem Ctr Nanoscale Sci & Technol Inst Elementoorgan Chem Tianjin 300071 Peoples R China|Nankai Univ Coll Chem Renewable Energy Convers & Storage Ctr RECAST Key Lab Funct Polymer Mat Tianjin 300071 Peoples R China;

Nankai Univ Coll Chem State Key Lab Tianjin 300071 Peoples R China|Nankai Univ Coll Chem Ctr Nanoscale Sci & Technol Inst Elementoorgan Chem Tianjin 300071 Peoples R China|Nankai Univ Coll Chem Renewable Energy Convers & Storage Ctr RECAST Key Lab Funct Polymer Mat Tianjin 300071 Peoples R China;

Nankai Univ Coll Chem State Key Lab Tianjin 300071 Peoples R China|Nankai Univ Coll Chem Ctr Nanoscale Sci & Technol Inst Elementoorgan Chem Tianjin 300071 Peoples R China|Nankai Univ Coll Chem Renewable Energy Convers & Storage Ctr RECAST Key Lab Funct Polymer Mat Tianjin 300071 Peoples R China;

Nankai Univ Coll Chem State Key Lab Tianjin 300071 Peoples R China|Nankai Univ Coll Chem Ctr Nanoscale Sci & Technol Inst Elementoorgan Chem Tianjin 300071 Peoples R China|Nankai Univ Coll Chem Renewable Energy Convers & Storage Ctr RECAST Key Lab Funct Polymer Mat Tianjin 300071 Peoples R China;

Nankai Univ Coll Chem State Key Lab Tianjin 300071 Peoples R China|Nankai Univ Coll Chem Ctr Nanoscale Sci & Technol Inst Elementoorgan Chem Tianjin 300071 Peoples R China|Nankai Univ Coll Chem Renewable Energy Convers & Storage Ctr RECAST Key Lab Funct Polymer Mat Tianjin 300071 Peoples R China;

Nankai Univ Coll Chem State Key Lab Tianjin 300071 Peoples R China|Nankai Univ Coll Chem Ctr Nanoscale Sci & Technol Inst Elementoorgan Chem Tianjin 300071 Peoples R China|Nankai Univ Coll Chem Renewable Energy Convers & Storage Ctr RECAST Key Lab Funct Polymer Mat Tianjin 300071 Peoples R China;

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正文语种 eng
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关键词
flexible transparent electrodes; mechanical stability; organic photovoltaics; silver nanowires;

机译：柔性透明电极;机械稳定性;有机光伏;银纳米线;

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3. Isoindigo-based small molecules for high-performance solution-processed organic photovoltaic devices: the electron donating effect of the donor group on photo-physical properties and device performance [J] . Walaa Elsawy, Chang-Lyoul Lee, ShinukCho Physical chemistry chemical physics: PCCP . 2013 ,第36期

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4. Stability robustness of linear feedback-controlled mechanical systems in the presence of a class of unmodelled flexibilities [C] . Corless, M. . 1988

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5. Semiconducting polymers for stretchable, ultra-flexible, and mechanically robust organic photovoltaics. [D] . Savagatrup, Suchol. 2016

机译：用于可拉伸，超柔韧性和机械强度的有机光伏半导体材料。
6. Highly Efficient Flexible Polymer Solar Cells with Robust Mechanical Stability [O] . Licheng Tan, Yilin Wang, Jingwen Zhang, 2019

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Flexible High-Performance and Solution-Processed Organic Photovoltaics with Robust Mechanical Stability

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