Correlating the charge density and structural fabrication of new organic dyes to create visible light harvesting materials with tunable NLO refining: insights from DFT

IF 2.1 4区 化学 Q3 CHEMISTRY, MULTIDISCIPLINARY
Abrar U. Hassan, Sajjad H. Sumrra, Muhammad Zubair, Ghulam Mustafa, Sadaf Noreen, Muhammad Imran
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引用次数: 1

Abstract

In this investigation, the new organic dyes (TDBR1–TDBR6) have been designed from a moiety, namely thienobenzodithiophene (TDB), using the density functional theory (DFT) approach. The dyes were analyzed to predict their absorption spectra (λmax), optimized geometries, optical features, density of states, electrostatic potential surfaces with solar cell parameters. It was determined that how electron-donating and electron-withdrawing groups could be affixed with molecules to affect their charge transfer (CT) as a Pull–Push phenomenon. All the new dyes demonstrated a significant Pull–Push effect having maximum absorbance (λmax) 677–691 nm. Furthermore, the analysis of their bond lengths with respect to their planarity patterns indicated a facile CT patterns. All the new dyes also possessed higher LUMO energies (ELUMO) than TiO2 oxide conduction band while they have binding energy (Eb) range of 0.20–0.54 eV. The linear polarizability (< α >) values for all the designed dyes were recorded to be 0.77–1.87 × 10–21 e.s.u, while their first-order polarizability (βtot) and second-order hyperpolarizability (γtot) were ranged to be 2.21–3.81 × 10–25 and 13.8–29.3 × 10–30 esu. Also their computed dipole moments (µtot) were in accordance with their NLO responses having their ranges (0.14–7.65 D). The global reactivity parameters had a direct relationship with NLO qualities. They showed their ionization potential values to 0.63–1.87 eV while their softness values (σ) 0.18–1.08 eV. The higher NLO parameters were seen with a reduction in HOMO–LUMO gaps (HLG) which stated that a dye molecule with a lower HLG value might supposed their global reactivity to be softer, less stable, and much more reactive. Their light harvesting efficiency (LHE), with TDB as donor material, was also very promising (−2.8–1.24) having an ON state for dyes TDBR3–TDBR6. Finally, before synthesis, determining material characteristics using DFT will aid in understanding their projected behavior for their applications like NLO and/or as organic dyes.

将新型有机染料的电荷密度和结构制造相关联,以创建具有可调谐NLO精炼的可见光收集材料:来自DFT的见解
本研究采用密度泛函理论(DFT)方法,从噻吩苯二噻吩(TDB)中设计了新型有机染料TDBR1-TDBR6。对染料进行分析,预测其吸收光谱(λmax)、优化几何形状、光学特性、态密度、静电势面与太阳能电池参数的关系。研究了给电子和吸电子基团如何与分子结合,从而影响分子的电荷转移(CT)。所有新染料均表现出显著的拉推效应,最大吸光度(λmax)为677 ~ 691 nm。此外,分析它们的键长与它们的平面模式表明了一个简单的CT模式。所有新染料的LUMO能(ELUMO)均高于TiO2氧化物的导带,结合能(Eb)范围为0.20 ~ 0.54 eV。所设计染料的线性极化率(< α >)为0.77 ~ 1.87 × 10-21 esu,一阶极化率(βtot)和二阶超极化率(γtot)分别为2.21 ~ 3.81 × 10-25和13.8 ~ 29.3 × 10-30 esu。他们计算的偶极矩(µtot)与NLO响应一致,其范围为0.14-7.65 D。总体反应性参数与NLO质量有直接关系。它们的电离势值为0.63 ~ 1.87 eV,软度值(σ)为0.18 ~ 1.08 eV。NLO参数越高,HOMO-LUMO间隙(HLG)越小,这表明HLG值越低的染料分子可能认为它们的整体反应性更软,更不稳定,反应性更强。对于TDBR3-TDBR6染料,以TDB为供体材料的光收获效率(LHE)也非常有前景(−2.8-1.24)。最后,在合成之前,使用DFT确定材料的特性将有助于理解它们在NLO和/或有机染料等应用中的预期行为。
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
Chemical Papers
Chemical Papers 化学-化学综合
CiteScore
3.90
自引率
4.50%
发文量
590
审稿时长
2.5 months
期刊介绍: Chemical Papers is a peer-reviewed, international journal devoted to basic and applied chemical research. It has a broad scope covering the chemical sciences, but favors interdisciplinary research and studies that bring chemistry together with other disciplines.
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