Tuning the photophysical properties of triphenylamine pyrazine-based dyes: role of π-spacers in DSSCs with iodine and copper-based redox shuttle.

IF 2.5 4区化学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY

Journal of Molecular Modeling Pub Date : 2025-09-30 DOI:10.1007/s00894-025-06507-4

Asha, Sumit Sahil Malhotra, Sunita Srivastava, Manoj Kumar Gangwar, Ranjan Kumar Mohapatra, Manoj Kumar Gupta, Azaj Ansari

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引用次数: 0

Abstract

Context: A series of donor-π-acceptor dyes were designed based on the structure of the experimentally reported TPP dye, which incorporates Triphenylamine (TPA) as the donor, Pyrazine as the π-bridge, and a carboxylic acid group as the acceptor. To enhance the photovoltaic performance of dye-sensitized solar cells, five new dyes (TPP1-TPP5) were modelled by introducing different alterations to the π-conjugated bridge. Density functional theory (DFT) and time-dependent DFT (TDDFT) calculations were carried out to examine how the alteration in the π-spacer influences the optical, electronic, and photovoltaic performance. All dyes displayed negative Gibbs free energy values for electron injection into TiO₂, confirming the thermodynamic favourability of the charge transfer process. Short-circuit current density (J_SC) was found as the highest for TPP3 and TPP4, outperforming the other TPP dyes with 1.40 mA cm^-2 and 1.87 mA cm^-2. Furthermore, with the lowest dye regeneration of ΔG_reg = 0.46 eV and a comparable open circuit voltage (V_oc) of 1.17 eV, TPA4 demonstrated higher regeneration kinetics. Natural bond order analysis was conducted to assess the bond strength and examine the molecular orbitals associated with the donor, π-spacer and acceptor unit. All the modelled dyes found strong non-linear optical characteristics having the linear polarizability (α) amplitudes greater than the first-order total polarizability (β_total) relative to the experimental dye. Light harvesting efficiency of the modelled dye TPP4 was found the maximum (89%) among the studied dyes. These findings show that π-spacer alteration is an effective strategy for improving overall dye performance in DSSCs.

Methods: Optimization of all species by using Gaussian16 with functional B3LYP and basis set 6-311G (d,p). NBO analysis was performed to explore the interactions between the filled orbitals of one part and the vacant orbitals of another part. TDDFT studies were performed using ORCA4.2 with Zeroth-Order Regular Approximation for accounting relativistic effects to calculate excitation energies.

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三苯胺吡啶基染料光物理性质的调整：π-间隔剂在碘和铜基氧化还原穿梭DSSCs中的作用。

背景：在实验报道的TPP染料结构的基础上，设计了一系列以三苯胺（TPA）为给体，吡嗪为π桥，羧酸基为受体的给体-π-受体染料。为了提高染料敏化太阳能电池的光电性能，对5种新型染料（TPP1-TPP5）的π共轭桥进行了模拟。采用密度泛函理论（DFT）和时变DFT （TDDFT）计算了π-间隔层的变化对光学、电子和光电性能的影响。所有染料都显示出负的吉布斯自由能值，证实了电荷转移过程的热力学优势。TPP3和TPP4的短路电流密度最高，分别为1.40 mA cm-2和1.87 mA cm-2。此外，TPA4的最低染料再生率为ΔGreg = 0.46 eV，开路电压（Voc）为1.17 eV，表现出较高的再生动力学。通过自然键序分析来评估键强度，并考察了与供体、π-间隔和受体单位相关的分子轨道。所有模拟染料均具有较强的非线性光学特性，其线性极化率（α）幅度大于实验染料的一阶总极化率（β总）。模拟染料TPP4的光收集效率最高（89%）。这些发现表明π-间隔层改变是提高DSSCs染料整体性能的有效策略。方法：利用具有B3LYP功能的Gaussian16和基集6-311G （d,p）对所有物种进行优化。通过NBO分析，探讨了其中一部分的填充轨道与另一部分的空轨道之间的相互作用。使用ORCA4.2进行TDDFT研究，并使用零阶正则逼近来计算相对论效应以计算激发能。

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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来源期刊

Journal of Molecular Modeling 化学-化学综合

CiteScore

3.50

自引率

4.50%

发文量

362

审稿时长

2.9 months

期刊介绍： The Journal of Molecular Modeling focuses on "hardcore" modeling, publishing high-quality research and reports. Founded in 1995 as a purely electronic journal, it has adapted its format to include a full-color print edition, and adjusted its aims and scope fit the fast-changing field of molecular modeling, with a particular focus on three-dimensional modeling. Today, the journal covers all aspects of molecular modeling including life science modeling; materials modeling; new methods; and computational chemistry. Topics include computer-aided molecular design; rational drug design, de novo ligand design, receptor modeling and docking; cheminformatics, data analysis, visualization and mining; computational medicinal chemistry; homology modeling; simulation of peptides, DNA and other biopolymers; quantitative structure-activity relationships (QSAR) and ADME-modeling; modeling of biological reaction mechanisms; and combined experimental and computational studies in which calculations play a major role.