Muhammad Arif Ali, Muhammad Zahid Qureshi, Rahman Shah Zaib Saleem, Mariusz Mojzych, Ahsan Sharif and Muhammad Arshad
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Among the utilized functionals D3-B3LYP demonstrated the best agreement with experimental data, establishing its reliability for predicting electric field induced second harmonic generation (EFISHG) and electro-optical Pockel's effect (EOPE). Frontier molecular orbital (FMO) analysis revealed a reduced energy gap in nitro-substituted derivatives, particularly MAS3 (Δ<em>E</em> = 3.32 eV), which exhibited enhanced intramolecular charge transfer (ICT) and large hyperpolarizabilities, responsible for EFISHG applications. Molecular electrostatic potential (MEP) maps highlighted significant charge separation, while ELF and LOL analyses confirmed strong π-electron delocalization, further supporting their electro-optic potential. Notably, MAS3 displayed the highest first hyperpolarizability (<em>β</em><small><sub>tot</sub></small> = 3217 a.u.), surpassing the reference <em>p</em>-nitroaniline (<em>p</em>NA), indicating strong potential for second-harmonic generation (SHG) and EOPE-based devices. Dynamic hyperpolarizability studies at 1460 nm and 1907 nm revealed frequency-dependent behavior, with MAS3 showing exceptional <em>γ</em>(−2<em>ω</em>;<em>ω</em>,<em>ω</em>,0) values (124 212 a.u.), suggesting utility in EFISHG measurements and electro-optic modulation. Thermodynamic stability, light-harvesting efficiency (LHE), and radiative lifetime (<em>τ</em><small><sub>r</sub></small> = 8.8 ns for MAS3) further underscore the promise of these derivatives for optoelectronic applications. 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引用次数: 0
摘要
本研究采用实验和计算相结合的方法,探索了六种新设计的硫代海因衍生物的合成(从MAS1到MAS5的五种新的硫代海因衍生物,而REF分子被用作比较DFT研究的标准)、光谱表征和光电性质。所有合成化合物的分子结构都通过FTIR和核磁共振光谱进行了确认,而四个官能团的DFT计算提供了对振动模式、化学位移和电子行为的见解。其中D3-B3LYP与实验数据吻合最好,建立了预测电场诱导二次谐波(EFISHG)和电光波克尔效应(EOPE)的可靠性。前沿分子轨道(FMO)分析显示,硝基取代衍生物的能隙减小,特别是MAS3 (ΔE = 3.32 eV),其表现出增强的分子内电荷转移(ICT)和大的超极化能力,这是EFISHG应用的原因。分子静电势(MEP)图突出了明显的电荷分离,而ELF和LOL分析证实了强π电子离域,进一步支持了它们的电光势。值得注意的是,MAS3显示出最高的第一超极化率(β tot = 3217 a.u.),超过了参考对硝基苯胺(pNA),表明其具有很强的二次谐波产生(SHG)和基于eop的器件潜力。在1460 nm和1907 nm的动态超极化率研究显示了频率依赖行为,MAS3显示出异常的γ(-2ω;ω,ω,0)值(124 - 212 a.u),表明在EFISHG测量和电光调制中的应用。热力学稳定性、光收集效率(LHE)和辐射寿命(MAS3的τ r = 8.8 ns)进一步强调了这些衍生物在光电应用中的前景。这项工作不仅验证了基于硫代氢酮的溶剂调制EFISHG和EOPE系统的能力,而且为设计用于光子学和电信的先进有机材料提供了一个强大的框架。
Solvent-modulated second harmonic generation in N-alkylated thiohydantoin derivatives: synthesis, characterization, and first-principle insights
This study explores the synthesis (five new thiohydantoin derivatives from MAS1 to MAS5, while an REF molecule was used as a standard for comparative DFT studies), spectroscopic characterization, and optoelectronic properties of six newly designed thiohydantoin derivatives using a combined experimental and computational approach. The molecular structures of all synthesized compounds were confirmed through FTIR and NMR spectroscopy, while DFT calculations at four functionals provided insights into vibrational modes, chemical shifts, and electronic behavior. Among the utilized functionals D3-B3LYP demonstrated the best agreement with experimental data, establishing its reliability for predicting electric field induced second harmonic generation (EFISHG) and electro-optical Pockel's effect (EOPE). Frontier molecular orbital (FMO) analysis revealed a reduced energy gap in nitro-substituted derivatives, particularly MAS3 (ΔE = 3.32 eV), which exhibited enhanced intramolecular charge transfer (ICT) and large hyperpolarizabilities, responsible for EFISHG applications. Molecular electrostatic potential (MEP) maps highlighted significant charge separation, while ELF and LOL analyses confirmed strong π-electron delocalization, further supporting their electro-optic potential. Notably, MAS3 displayed the highest first hyperpolarizability (βtot = 3217 a.u.), surpassing the reference p-nitroaniline (pNA), indicating strong potential for second-harmonic generation (SHG) and EOPE-based devices. Dynamic hyperpolarizability studies at 1460 nm and 1907 nm revealed frequency-dependent behavior, with MAS3 showing exceptional γ(−2ω;ω,ω,0) values (124 212 a.u.), suggesting utility in EFISHG measurements and electro-optic modulation. Thermodynamic stability, light-harvesting efficiency (LHE), and radiative lifetime (τr = 8.8 ns for MAS3) further underscore the promise of these derivatives for optoelectronic applications. This work not only validates the solvent modulated EFISHG and EOPE capabilities of thiohydantoin-based systems but also provides a robust framework for designing advanced organic materials for photonics and telecommunications.
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