通过 BTR 非熔环电子受体侧链工程改善非富勒烯有机太阳能电池性能的理论研究

IF 2.7 4区 生物学 Q2 BIOCHEMICAL RESEARCH METHODS Journal of molecular graphics & modelling Pub Date : 2024-05-20 DOI:10.1016/j.jmgm.2024.108792
Sidra Moeed , R. Bousbih , Ali Raza Ayub , Nadhir N.A. Jafar , Mohammed Aljohani , Majid S. Jabir , Mohammed A. Amin , Hira Zubair , Hasan Majdi , Muhammad Waqas , N.M.A. Hadia , Rasheed Ahmad Khera
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引用次数: 0

摘要

在目前的量子化学研究中,以茚并二噻吩供体核为基础,对参考发色团 BTR 的端帽进行了改变,起草了八个 A2-A1-D-A1-A2 型小型非富勒烯受体。所有计算模拟均在 MPW1PW91/6-31G (d, p) DFT 水平下进行。研究了紫外可见吸收、开路电压、电子亲和力、电离电位、状态密度、重组能、轨道分析和非共价相互作用,并与 BTR 进行了比较。我们的建模系列 BT1-BT8 中的几个分子显示出优于 BTR 的独特特征。BT5 的开路电压(VOC)具有良好的影响,使其能够在有机太阳能电池领域取代 BTR。与参考分子(BTR)相比,拟议分子的电荷载流子运动产生了非凡的发现。通过与 PM6 供体分子形成复合物,进一步证实了电荷传输。显著的偶极矩有助于与氯仿形成非共价键相互作用,从而产生卓越的电荷移动性。基于这些发现,可以说每一种定制分子都有可能在 OSC 中超越发色团分子(BTR)。因此,所有量身定制的分子都可以提高光伏电池的效率,这是因为它们含有强效的终端电子捕获受体2 分子。考虑到这些结果,这些新提出的分子可被视为未来开发高效太阳能设备的材料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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A theoretical investigation for improving the performance of non-fullerene organic solar cells through side-chain engineering of BTR non-fused-ring electron acceptors

In the current quantum chemical study, indacenodithiophene donor core-based the end-capped alterations of the reference chromophore BTR drafted eight A2-A1-D-A1-A2 type small non-fullerene acceptors. All the computational simulations were executed under MPW1PW91/6-31G (d, p) level of DFT. The UV–Vis absorption, open circuit voltage, electron affinity, ionization potential, the density of states, reorganization energy, orbital analysis, and non-covalent interactions were studied and compared with BTR. Several molecules of our modeled series BT1-BT8 have shown distinctive features that are better than those of the BTR. The open circuit voltage (VOC) of BT5 has a favorable impact, allowing it to replace BTR in the field of organic solar cells. The charge carrier motilities for proposed molecules generated extraordinary findings when matched to the reference one (BTR). Further charge transmission was confirmed by creating the complex with a PM6 donor molecule. The remarkable dipole moment contributes to the formation of non-covalent bond interactions with chloroform, resulting in superior charge mobility. Based on these findings, it can be said that every tailored molecule has the potential to surpass chromophore molecule (BTR) in OSCs. So, all tailored molecules may enhance the efficiency of photovoltaic cells due to the involvement of potent terminal electron-capturing acceptor2 moieties. Considering these obtained results, these newly presented molecules can be regarded for developing efficient solar devices in the future.

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来源期刊
Journal of molecular graphics & modelling
Journal of molecular graphics & modelling 生物-计算机:跨学科应用
CiteScore
5.50
自引率
6.90%
发文量
216
审稿时长
35 days
期刊介绍: The Journal of Molecular Graphics and Modelling is devoted to the publication of papers on the uses of computers in theoretical investigations of molecular structure, function, interaction, and design. The scope of the journal includes all aspects of molecular modeling and computational chemistry, including, for instance, the study of molecular shape and properties, molecular simulations, protein and polymer engineering, drug design, materials design, structure-activity and structure-property relationships, database mining, and compound library design. As a primary research journal, JMGM seeks to bring new knowledge to the attention of our readers. As such, submissions to the journal need to not only report results, but must draw conclusions and explore implications of the work presented. Authors are strongly encouraged to bear this in mind when preparing manuscripts. Routine applications of standard modelling approaches, providing only very limited new scientific insight, will not meet our criteria for publication. Reproducibility of reported calculations is an important issue. Wherever possible, we urge authors to enhance their papers with Supplementary Data, for example, in QSAR studies machine-readable versions of molecular datasets or in the development of new force-field parameters versions of the topology and force field parameter files. Routine applications of existing methods that do not lead to genuinely new insight will not be considered.
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