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在环境大气中设计并合成了ANTPABA-PDI纳米材料作为倒置太阳能电池中的受体。

Designed and synthesizedANTPABA-PDI nanomaterial as an acceptor in inverted solar cell at ambient atmosphere.

作者信息

Mitra Soumyadeep, Ray Sudipta, Ghosh Narendra Nath, Hota Poulami, Mukherjee Arnab, Bagui Anirban, Maiti Dilip K

机构信息

Centre for Research in Nanoscience and Nanotechnology, University of Calcutta, JD-2, Sector 3, Salt Lake City, Kolkata-700098, India.

Department of Chemistry, University of Calcutta, 92, APC Road, Kolkata-700009, India.

出版信息

Nanotechnology. 2023 May 18;34(31). doi: 10.1088/1361-6528/acd1f8.

Abstract

In this work, a novel soluble and air-stable electron acceptor containing perylenediimide moiety named ANTPABA-PDI was designed and synthesized with band gap 1.78eV and that was used as non-fullerene acceptor material. ANTPABA-PDI possess not only good solubility but also much lower LUMO (lowest unoccupied molecular orbital) energy level. Furthermore, its excellent electron acceptor capability also supported by density functional theory calculation which validates the experimental observations. Inverted organic solar cell has been fabricated using ANTPABA-PDI along with P3HT as standard donor material in ambient atmosphere. The device, after characterization in open air, exhibited a power conversion efficiency of 1.70%. This is the first ever PDI based organic solar cell that has been fabricated completely in ambient atmosphere. The characterizations of the device have also been performed in ambient atmosphere. This kind of stable organic material can easily be used in fabricating organic solar cell and therefore it can be used as the best alternative as non-fullerene acceptor materials.

摘要

在这项工作中,设计合成了一种新型的含苝二酰亚胺基团的可溶性且空气稳定的电子受体ANTPABA-PDI,其带隙为1.78eV,并用作非富勒烯受体材料。ANTPABA-PDI不仅具有良好的溶解性,而且其最低未占分子轨道(LUMO)能级低得多。此外,密度泛函理论计算也证实了其优异的电子受体能力,验证了实验观察结果。在环境大气中,使用ANTPABA-PDI和P3HT作为标准供体材料制备了倒置有机太阳能电池。该器件在露天环境中表征后,功率转换效率为1.70%。这是首个完全在环境大气中制备的基于苝二酰亚胺的有机太阳能电池。该器件的表征也是在环境大气中进行的。这种稳定的有机材料可轻松用于制造有机太阳能电池,因此可作为非富勒烯受体材料的最佳替代品。

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