在非共轭聚合物夹层中结合富勒烯和两性离子以提高太阳能电池效率。

Combining Fullerenes and Zwitterions in Non-Conjugated Polymer Interlayers to Raise Solar Cell Efficiency.

作者信息

Liu Yao, Sheri Madhu, Cole Marcus D, Emrick Todd, Russell Thomas P

机构信息

Polymer Science and Engineering Department, University of Massachusetts Amherst, 120 Governors Drive, Amherst, MA, 01003, USA.

Beijing Advanced Innovation Center for Soft Matter Science and Engineering, Beijing University of Chemical Technology, Beijing, 100029, China.

出版信息

Angew Chem Int Ed Engl. 2018 Jul 26;57(31):9675-9678. doi: 10.1002/anie.201803748. Epub 2018 Jul 3.

DOI:10.1002/anie.201803748

PMID:29893448

Abstract

Polymer zwitterions were synthesized by nucleophilic ring-opening of 3,3'-(but-2-ene-1,4-diyl)bis(1,2-oxathiolane 2,2-dioxide) (a bis-sultone) with functional perylene diimide (PDI) or fullerene monomers. Integration of these polymers into solar cell devices as cathode interlayers boosted efficiencies of fullerene-based organic photovoltaics (OPVs) from 2.75 % to 10.74 %, and of non-fullerene-based OPVs from 4.25 % to 10.10 %, demonstrating the versatility of these interlayer materials in OPVs. The fullerene-containing polymer zwitterion (C -PZ) showed a higher interfacial dipole (Δ) value and electron mobility than its PDI counterpart (PDI-PZ), affording solar cells with high efficiency. The power of PDI-PZ and C -PZ to improve electron injection and extraction processes when positioned between metal electrodes and organic semiconductors highlights their promise to overcome energy barriers at the hard-soft materials interface of organic electronics.

摘要

通过3,3'-(丁-2-烯-1,4-二基)双(1,2-氧杂硫杂环戊烷2,2-二氧化物)(一种双磺内酯)与功能性苝二酰亚胺(PDI)或富勒烯单体进行亲核开环反应合成了聚合物两性离子。将这些聚合物作为阴极夹层集成到太阳能电池器件中，使基于富勒烯的有机光伏(OPV)效率从2.75%提高到10.74%，使基于非富勒烯的OPV效率从4.25%提高到10.10%，证明了这些夹层材料在OPV中的多功能性。含富勒烯的聚合物两性离子(C -PZ)比其苝二酰亚胺对应物(PDI-PZ)表现出更高的界面偶极(Δ)值和电子迁移率，从而提供了高效率的太阳能电池。当PDI-PZ和C -PZ位于金属电极和有机半导体之间时，它们改善电子注入和提取过程的能力突出了它们克服有机电子学软硬材料界面处能垒的前景。

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在非共轭聚合物夹层中结合富勒烯和两性离子以提高太阳能电池效率。

Combining Fullerenes and Zwitterions in Non-Conjugated Polymer Interlayers to Raise Solar Cell Efficiency.

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