非平面苝二亚胺作为有机太阳能电池中富勒烯的潜在替代品

Nonplanar Perylene Diimides as Potential Alternatives to Fullerenes in Organic Solar Cells.

作者信息

Rajaram Sridhar, Shivanna Ravichandran, Kandappa Sunil Kumar, Narayan K S

机构信息

†International Centre for Materials Science and ‡Chemistry and Physics of Materials Unit, Jawaharlal Nehru Centre for Advanced Scientific Research, Bangalore, India.

出版信息

J Phys Chem Lett. 2012 Sep 6;3(17):2405-8. doi: 10.1021/jz301047d. Epub 2012 Aug 17.

DOI:10.1021/jz301047d

PMID:26292123

Abstract

Perylene diimides (PDIs) are attractive alternatives to fullerenes as electron transporters because of their optoelectronic properties, durability, and ease of synthesis. Belying this promise, devices that utilize PDIs as electron acceptors have low efficiencies. The primary deficiency in such cells is the low short circuit current density (JSC), which is traceable to the crystallinity of PDIs. Therefore, disrupting the crystallinity without adversely impacting the charge-transfer properties of PDIs is proposed as an important design principle. This has been achieved using a nonplanar perylene. In combination with a hole transporting polymer, a device efficiency of 2.77% has been achieved. A 10-fold increase in JSC is observed in comparison with a planar PDI, resulting in one of the highest JSC values for a solution processed device featuring a PDI. Indeed, this is one of the highest efficiencies for devices featuring a nonfullerene as the electron transporter.

摘要

苝二酰亚胺（PDIs）因其光电性能、耐久性和易于合成，作为电子传输体是富勒烯颇具吸引力的替代品。然而，与这一前景相悖的是，将PDIs用作电子受体的器件效率较低。此类电池的主要缺陷是短路电流密度（JSC）较低，这可归因于PDIs的结晶度。因此，在不对PDIs的电荷转移性能产生不利影响的情况下破坏其结晶度被提出作为一项重要的设计原则。这已通过使用非平面苝得以实现。与空穴传输聚合物相结合，实现了2.77%的器件效率。与平面PDI相比，JSC提高了10倍，这使得以PDI为特征的溶液处理器件的JSC值成为最高值之一。事实上，这是以非富勒烯作为电子传输体的器件的最高效率之一。

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非平面苝二亚胺作为有机太阳能电池中富勒烯的潜在替代品

Nonplanar Perylene Diimides as Potential Alternatives to Fullerenes in Organic Solar Cells.

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