Effect of alkoxy substitution position of phenyl side chains on the photovoltaic performance of nonfused acceptors

Side chain configuration plays a significant role in intermolecular interaction and aggregation morphology of organic small molecules. In this work, by altering the position of the hexyloxy substitution on the phenyl side chains, three non-fused acceptors were designed and synthesized, e.g. o-2T2Se-...

Full description

Saved in:
Bibliographic Details
Published in:Synthetic metals 2024-04, Vol.303, p.117574, Article 117574
Main Authors: Huang, Leiquan, Ding, Xueyan, Dong, Liying, Shan, Bofang, Xu, Yingying, Chen, Xianjie, Qiu, Huayu, Ni, Zhigang, Zhang, Qian
Format: Article
Language:English
Subjects:
Crystallinity
Molecular geometry
Nonfused acceptors
Organic solar cells (OSCs)
Substitution position
Citations: Items that this one cites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Side chain configuration plays a significant role in intermolecular interaction and aggregation morphology of organic small molecules. In this work, by altering the position of the hexyloxy substitution on the phenyl side chains, three non-fused acceptors were designed and synthesized, e.g. o-2T2Se-F with 2,3-di(hexoxy)phenyl substituents, m-2T2Se-F with 2,4-di(hexoxy)phenyl substituents and p-2T2Se-F with 2,5-di(hexoxy)phenyl substituents. In comparison with its isomeric counterpart 2T2Se-F with 2,6-di(hexoxy)phenyl substituents, these three acceptors exhibit twisted backbones, which result in blue-shifted absorption and weak intermolecular interaction and molecular aggregation. When paired with donor PM6, all three blend films display weak crystallinity, leading to poor photovoltaic performance. The devices based on o-2T2Se-F, m-2T2Se-F and p-2T2Se-F obtained power conversion efficiencies (PCEs) of 4.43%, 1.77%, and 1.30%, respectively, which are significantly lower than that of 2T2Se-F-based devices (12.17%). The results reveal that manipulating the alkoxy-chain attaching point can significantly alter the molecular geometry, optoelectronic properties and molecular aggregation properties, thereby affecting the photovoltaic performance of OSCs. •Three isomeric nonfused acceptors named o-2T2Se-F, m-2T2Se-F, and p-2T2Se-F were designed and synthesized.•Side chain substitution positions on the phenyl rings attached on the central 2,2’-bithiophene core.•Compared with its isomeric counterpart 2T2Se-F with 2,6-di(hexoxy)phenyl substituents, these three acceptors exhibit twisted backbones.•Devices based on these three acceptors exhibited lower PCEs than that of 2T2Se-F.
ISSN:0379-6779
1879-3290
DOI:10.1016/j.synthmet.2024.117574