TPA-DPP-based extended π-conjugated SMDs: Central core regulation on photovoltaic performance

IF 4.1 3区 工程技术 Q2 CHEMISTRY, APPLIED Dyes and Pigments Pub Date : 2024-09-04 DOI:10.1016/j.dyepig.2024.112434
Yajie Wang , Chang Liu , Lunxiang Yin, Yaru Liu, Peiwen Jiang, Yanqin Li
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Abstract

Small molecule donors (SMDs) have made great progress in the field of organic semiconductor materials due to their unique characteristics. The extended π-conjugation SMDs system combines the advantages of wide absorption and effective carrier mobility. However, the new structure of active layer material and the power conversion efficiency (PCE) of bulk-heterojunction (BHJ) organic solar cells (OSCs) are critical issues. Herein, a series of new SMDs, (TPA-DPP)2-CZ, (TPA-DPP)2-PTZ and (TPA-DPP)2-PhFLU, were constructed based on an extended D-A-D′-A-D structural skeleton using triphenylamine-diketopyrrolopyrrole (TPA-DPP) as the terminal electron-donating group and π-bridge electron-withdrawing linker. The strong push-pull effect of TPA-DPP leads to wide and strong light absorption, which is one of the reasons for the high short-circuit current density (JSC) of bulk heterojunction organic solar cells (OSCs). Furthermore, taking carbazole (CZ), phenothiazine (PTZ), and alkoxyphenyl substituted fluorene (PhFLU) as the central D′ units respectively, the effects of structural control strategies on the photovoltaic properties of the materials were discussed. It should be emphasized here that the introduction of alkoxyphenyl groups into the central core generates significant push-pull effects, promotes intermolecular charge transfer (ICT) processes, reduces energy loss, and facilitates charge transport in photovoltaic devices. As a result, the compounds (TPA-DPP)2-CZ, (TPA-DPP)2-PTZ and (TPA-DPP)2-PhFLU show high molar extinction coefficients ranging from 1.12 × 105 M−1 cm−1 to 1.68 × 105 M−1 cm−1, which is helpful for devices based on these materials to obtain high JSC. Among the three compounds, (TPA-DPP)2-PhFLU obtained the lowest HOMOCV energy level of −5.20 eV and the narrowest band gap of 1.65 eV, which will be conducive to the generation of high open circuit voltage (VOC) and JSC. The PCE of SMDs/PC71BM-based OSCs ranged from 4.66 % to 7.44 %. It is worth noting that the (TPA-DPP)2-PhFLU/PC71BM-based device obtained the highest PCE of 7.44 % with a VOC of 0.94 V, and a high JSC of 19.71 mA cm−2 without further optimization. The measured photocurrent and PCE of the device is one of the best performances for TPA-DPP-based SMDs available so far, which fills the gap of TPA-based long conjugated molecules in the field of organic photovoltaics. The better photovoltaic performance is attributed not only to the relatively weak electron-donating ability of the central core unit PhFLU of this molecule but also to the higher and more balanced carrier mobility of the device. This work demonstrates that the extended D-A-D′-A-D molecules based on the TPA-DPP skeleton are a type of promising photovoltaic material that can be used to improve JSC and PCE by combining the regulation of the central core.

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基于 TPA-DPP 的扩展 π 共轭 SMD:光伏性能的中央核心调节
小分子供体(SMDs)因其独特的特性在有机半导体材料领域取得了长足的进步。扩展π共轭 SMDs 系统兼具宽吸收和有效载流子迁移率的优点。然而,活性层材料的新结构和体外异质结(BHJ)有机太阳能电池(OSCs)的功率转换效率(PCE)是关键问题。在此,我们以三苯胺-二酮吡咯(TPA-DPP)为末端电子供能基团,以π桥电子抽离连接体为基础,在扩展的D-A-D′-A-D结构骨架上构建了(TPA-DPP)2-CZ、(TPA-DPP)2-PTZ和(TPA-DPP)2-PhFLU等一系列新型SMD。TPA-DPP 的强推拉效应可导致广泛而强烈的光吸收,这也是体异质结有机太阳能电池(OSC)具有高短路电流密度(JSC)的原因之一。此外,还分别以咔唑(CZ)、吩噻嗪(PTZ)和烷氧基苯基取代芴(PhFLU)为中心 D′单元,讨论了结构控制策略对材料光伏特性的影响。这里需要强调的是,在中心核中引入烷氧基苯基基团会产生显著的推拉效应,促进分子间电荷转移(ICT)过程,减少能量损失,并有利于光伏器件中的电荷传输。因此,(TPA-DPP)2-CZ、(TPA-DPP)2-PTZ 和 (TPA-DPP)2-PhFLU 显示出很高的摩尔消光系数,范围从 1.12 × 105 M-1 cm-1 到 1.68 × 105 M-1 cm-1,这有助于基于这些材料的器件获得很高的 JSC。在这三种化合物中,(TPA-DPP)2-PhFLU 的 HOMOCV 能级最低,为 -5.20 eV,带隙最窄,为 1.65 eV,这将有利于产生高开路电压(VOC)和 JSC。基于 SMD/PC71BM 的 OSC 的 PCE 为 4.66 % 至 7.44 %。值得注意的是,基于 (TPA-DPP)2-PhFLU/PC71BM 的器件在未进一步优化的情况下,获得了 7.44 % 的最高 PCE,VOC 为 0.94 V,JSC 高达 19.71 mA cm-2。该器件测得的光电流和 PCE 是目前基于 TPA-DPP 的 SMD 性能最好的之一,填补了基于 TPA 的长共轭分子在有机光伏领域的空白。更好的光伏性能不仅归功于该分子中心核心单元 PhFLU 相对较弱的电子负载能力,还归功于该器件更高更均衡的载流子迁移率。这项工作表明,基于 TPA-DPP 骨架的扩展 D-A-D′-A-D 分子是一种很有前景的光伏材料,可以通过结合中心核的调节来改善 JSC 和 PCE。
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来源期刊
Dyes and Pigments
Dyes and Pigments 工程技术-材料科学:纺织
CiteScore
8.20
自引率
13.30%
发文量
933
审稿时长
33 days
期刊介绍: Dyes and Pigments covers the scientific and technical aspects of the chemistry and physics of dyes, pigments and their intermediates. Emphasis is placed on the properties of the colouring matters themselves rather than on their applications or the system in which they may be applied. Thus the journal accepts research and review papers on the synthesis of dyes, pigments and intermediates, their physical or chemical properties, e.g. spectroscopic, surface, solution or solid state characteristics, the physical aspects of their preparation, e.g. precipitation, nucleation and growth, crystal formation, liquid crystalline characteristics, their photochemical, ecological or biological properties and the relationship between colour and chemical constitution. However, papers are considered which deal with the more fundamental aspects of colourant application and of the interactions of colourants with substrates or media. The journal will interest a wide variety of workers in a range of disciplines whose work involves dyes, pigments and their intermediates, and provides a platform for investigators with common interests but diverse fields of activity such as cosmetics, reprographics, dye and pigment synthesis, medical research, polymers, etc.
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