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咔唑基自组装单分子层材料中烷基间隔长度对分子构象和有机太阳能电池性能的影响。

Effects of Alkyl Spacer Length in Carbazole-Based Self-Assembled Monolayer Materials on Molecular Conformation and Organic Solar Cell Performance.

作者信息

Chen Qiaonan, Sun Kangbo, Franco Leandro R, Wu Jingnan, Öhrström Lars, Liu Xianjie, Gumbo Maureen, Ozório Mailde S, Araujo C Moyses, Zhang Guangye, Johansson André, Moons Ellen, Fahlman Mats, Yu Donghong, Wang Yufei, Wang Ergang

机构信息

Department of Chemistry and Chemical Engineering, Chalmers University of Technology, Göteborg, SE-412 96, Sweden.

College of New Materials and New Energies, Shenzhen Technology University, Shenzhen, 518118, China.

出版信息

Adv Sci (Weinh). 2025 Jan;12(4):e2410277. doi: 10.1002/advs.202410277. Epub 2024 Dec 4.

DOI:10.1002/advs.202410277
PMID:39629953
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11775572/
Abstract

Carbazole-based self-assembled monolayer (SAM) materials as hole transport layers (HTL) have led organic solar cells (OSCs) to state-of-the-art photovoltaic performance. Nonetheless, the impact of the alkyl spacer length of SAMs remains inadequately understood. To improve the knowledge, four dichloride-substituted carbazole-based SAMs (from 2Cl-2PACz to 2Cl-5PACz) with spacer lengths of 2-5 carbon atoms is developed. Single crystal analyses reveal that SAMs with shorter spacers exhibit stronger intermolecular interactions and denser packing. The molecular conformation of SAMs significantly impacts their molecular footprint and coverage on ITO. These factors result in the highest coverage of 2Cl-2PACz and the lowest coverage for 2Cl-3PACz on ITO. OSCs based on PM6:L8-BO with 2Cl-2PACz as HTL achieved high efficiencies of 18.95% and 18.62% with and without methanol rinsing of the ITO/SAMs anodes, corresponding to monolayer and multilayer structures, respectively. In contrast, OSCs utilizing the other SAMs showed decreased efficiencies as spacer length increased. The superior performance of 2Cl-2PACz can be attributed to its shorter spacer, which reduces series resistance, hole tunneling distance, and barrier. This work provides valuable insights into the design of SAMs for high-performance OSCs.

摘要

基于咔唑的自组装单分子层(SAM)材料作为空穴传输层(HTL),已使有机太阳能电池(OSC)具备了先进的光伏性能。尽管如此,SAMs烷基间隔长度的影响仍未得到充分理解。为增进这方面的认识,开发了四种间隔长度为2至5个碳原子的二氯化物取代咔唑基SAMs(从2Cl - 2PACz到2Cl - 5PACz)。单晶分析表明,间隔较短的SAMs表现出更强的分子间相互作用和更紧密的堆积。SAMs的分子构象对其分子足迹和在ITO上的覆盖率有显著影响。这些因素导致2Cl - 2PACz在ITO上的覆盖率最高,而2Cl - 3PACz的覆盖率最低。以2Cl - 2PACz为空穴传输层的基于PM6:L8 - BO的OSC,在ITO/SAMs阳极进行和不进行甲醇冲洗的情况下,分别实现了18.95%和18.62%的高效率,分别对应单层和多层结构。相比之下,使用其他SAMs的OSC随着间隔长度增加效率降低。2Cl -

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