Investigating the Effect of Tuning the Metal Center in Complexes for Nonlinear Optical Application

IF 0.8 Q3 MULTIDISCIPLINARY SCIENCES Malaysian Journal of Fundamental and Applied Sciences Pub Date : 2023-10-19 DOI:10.11113/mjfas.v19n5.2929

Mamoona Jillani, Nur Athirah, Suhaila Sapari, Fazira Ilyana Abdul Razak

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Abstract

In this study, the new transition metal complexes, ML with M = Zn (II), Ni (II), and Pd (II) based on the N,N'-Bis[O-(diphenylphosphino)benzylidene)ethylenediamine ligand were successfully synthesized with a percentage yield of between 33 – 68%. As a result of fourier transform infrared spectroscopy (FTIR), UV-vis spectroscopy (UV-vis), and 1H nuclear magnetic resonance (proton NMR) was used to design and completely describe the metal complexes properties. Moreover, for computational study, the Gaussian16 software installed in the high-performance computer (HPC) is used for NLO calculation. The method used to perform this study is Density Functional Theory (DFT) method. 6-31G(d,p) basis set is used with LANL2DZ for zinc, nickel, and palladium along with the keyword ‘GEN’. The molecular structure has been optimized and checked both bond length and bond angle before starting to run the calculation. Thus, NLO calculation had been performed. The dipole moment and the HOMO-LUMO energy gap were employed to verify the first hyperpolarizability, βtot, which can be utilized as an indication of second nonlinear optical characteristics. Transition metal-based complexes produce impressive results because they provide additional flexibility by offering charge transfer (CT) transitions between the metal and the ligands, resulting in a higher NLO response. Due to the charge transfer excitations, it was discovered that the nickel complex with 2.87 D had the largest NLO response (117215.66 x 10-30 esu), particularly in comparison with the zinc complex (2329.72 x 10-30 esu) and palladium complex (191.07 x 10-30 esu) with 6.52 D and 4.04 D values, respectively.

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非线性光学应用中调整配合物金属中心的效果研究

本文以N,N′-双[O-(二苯基膦)苄基)乙二胺为配体，成功合成了M = Zn (II)， Ni (II)和Pd (II)的新型过渡金属配合物ML，产率在33 ~ 68%之间。利用傅里叶变换红外光谱(FTIR)、紫外-可见光谱(UV-vis)和1H核磁共振(质子核磁共振)对金属配合物的性质进行了设计和完整描述。此外，在计算研究中，采用安装在高性能计算机(HPC)中的Gaussian16软件进行NLO计算。本研究采用密度泛函理论(DFT)方法。6-31G(d,p)基组与LANL2DZ一起用于锌、镍和钯，关键字为“GEN”。在开始计算之前，对分子结构进行了优化，并对键长和键角进行了校核。因此，进行了NLO计算。利用偶极矩和HOMO-LUMO能隙验证了第一超极化率βtot，它可以作为第二非线性光学特性的指示。过渡金属基配合物产生了令人印象深刻的结果，因为它们通过在金属和配体之间提供电荷转移(CT)转变提供了额外的灵活性，从而产生更高的NLO响应。由于电荷转移激发，发现镍配合物的NLO响应值为2.87，为117215.66 × 10-30 esu，特别是与锌配合物(2329.72 × 10-30 esu)和钯配合物(191.07 × 10-30 esu)相比，D值分别为6.52和4.04。

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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Malaysian Journal of Fundamental and Applied Sciences MULTIDISCIPLINARY SCIENCES-

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1.40

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