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用于染料敏化太阳能电池的吡啶基染料的理论、结构和电子分析。

Theoretical, structural, and electronic analyses of pyridin-based dyes for dye-sensitized solar cells applications.

作者信息

Dhivya K S, Senthilkumar C, Karthika K, Srinivasan P

机构信息

PG and Research Department of Physics, Chikkaiah Naicker College, Erode, Tamil Nadu, 638004, India.

Department of Physics, Government Arts and Science College, Hosur, Tamil Nadu, 635110, India.

出版信息

J Mol Model. 2024 Jun 13;30(7):206. doi: 10.1007/s00894-024-06002-2.

DOI:10.1007/s00894-024-06002-2
PMID:38869694
Abstract

CONTEXT

The new series of donor-π-acceptor dyes have been designed using pyridine derivatives as a donor group and thienothiophene as a π-spacer group, which were linked via 10 acceptor groups. The highest occupied molecular orbital energies range from - 6.177 to - 5.786 eV, whereas the lowest unoccupied molecular orbital energies range from - 2.181 to - 3.664 eV. A6 dye has smaller energy gap, lower hardness, higher electrophilicity index, and good photovoltaic performance than other sensitizers. The lowest dihedral angle is observed in A1, A2, A6, A7, and A8 which are appropriate for intramolecular charge transfer between the molecules. The A8 has higher light harvesting efficiency, which increases the photovoltaic efficiency of the designed dye. The A6, A7, and A8 dyes spend less time in the excited state, which means they emit photons more efficiently than other dyes. The interaction between donor to π-spacer (red line) parts of the dyes has the bonding interaction (positive), and π-spacer to acceptor (blue line) parts of the dyes have the bonding and antibonding (negative) behaviours. The dyes A5 and A9 have 305.79 and 357.71 times higher β values than urea (0.781 × 10 esu) molecules. The spectral properties of the A6 dye strongly affect the structural modification.

METHODS

The density functional theory (DFT) and time-dependent DFT (TD-DFT) approach B3LYP/6-311G (d,p) basic set were used to optimize the designed dyes. All the calculations are performed using Gauss view 6.0 and Gaussian 09 software. The density of state spectrum is plotted using Gauss sum 2.6.

摘要

背景

已设计出一系列新型供体-π-受体染料,以吡啶衍生物作为供体基团,噻吩并噻吩作为π-间隔基团,它们通过10个受体基团相连。最高占据分子轨道能量范围为-6.177至-5.786电子伏特,而最低未占据分子轨道能量范围为-2.181至-3.664电子伏特。与其他敏化剂相比,A6染料具有更小的能隙、更低的硬度、更高的亲电指数和良好的光伏性能。在A1、A2、A6、A7和A8中观察到最低的二面角,这有利于分子间的分子内电荷转移。A8具有更高的光捕获效率,这提高了所设计染料的光伏效率。A6、A7和A8染料在激发态停留的时间更短,这意味着它们比其他染料更有效地发射光子。染料的供体与π-间隔基团(红线)部分之间的相互作用具有成键相互作用(正值),而染料的π-间隔基团与受体(蓝线)部分具有成键和反键(负值)行为。染料A5和A9的β值分别比尿素(0.781×10 esu)分子高305.79倍和357.71倍。A6染料的光谱性质强烈影响结构修饰。

方法

采用密度泛函理论(DFT)和含时密度泛函理论(TD-DFT)方法B3LYP/6-311G(d,p)基组对所设计的染料进行优化。所有计算均使用Gauss view 6.0和Gaussian 09软件进行。使用Gauss sum 2.6绘制态密度谱。

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