具有优异非线性光学响应和紫外透明度的碱土化物 M+(36adz)Be-(M+ = V、Cr、Mn、Fe、Co、Ni、Cu 和 Zn)的理论设计

IF 2.7 4区 生物学 Q2 BIOCHEMICAL RESEARCH METHODS
Jabir Hussain , Riaz Hussain , Ajaz Hussain , Mirza Arfan Yawer , Muhammad Arshad , Saleh S. Alarfaji , Abdul Rauf , Khurshid Ayub
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Moreover, the true nature of alkaline earthides is verified through NBOs and FMO study, showing negative charge and excess electrons on alkaline earth metal respectively. Furthermore, true alkaline earthides characteristics are evaluated graphically by spectra of partial density state (PDOS). The energy gap (HOMO -LUMO gap) is very small (ranging 2.95 eV–1.89 eV), when it is compared with pure cage 3<sup>6</sup>adz HOMO-LUMO gap <em>i.e.,</em> 8.50 eV. All the complexes show a very small value of transition energy ranging from 1.68eV to 0.89eV. Also, these possess higher hyper polarizability values up to 2.8 x 10<sup>5</sup>au (for Co<sup>+</sup>(3<sup>6</sup>adz) Be<sup>−</sup>). Furthermore, an increase in hyper polarizability was observed by applying external electric field on complexes. 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引用次数: 0

摘要

通过将过渡金属(V-Zn)置于络合剂的内侧,碱土金属置于络合剂的外侧,即 M+(36adz)Be-(M+ = V、Cr、Mn、Fe、Co、Ni、Cu 和 Zn),设计出了一系列新型碱土化物,其中包含基于 36adz 络合剂的八种络合物。根据其相互作用能和垂直电离电位的评估,所有设计的化合物都具有电子稳定性和热力学稳定性。此外,通过 NBOs 和 FMO 研究,碱土金属上分别显示出负电荷和过剩电子,从而验证了碱土化物的真实性。此外,还通过部分密度态(PDOS)光谱以图形方式评估了碱土化物的真实特性。与纯笼 36adz 的 HOMO-LUMO 间隙(即 8.50 eV)相比,其能隙(HOMO -LUMO 间隙)非常小(范围为 2.95 eV-1.89 eV)。所有配合物的过渡能值都很小,从 1.68eV 到 0.89eV。此外,这些复合物还具有较高的超极化值,最高可达 2.8 x 105au(对于 Co+(36adz) Be-)。此外,通过在复合物上施加外部电场,还观察到超极化率的增加。在施加外电场后,Zn+(36adz) Be- 复合物的超极化率明显增加了 100 倍,即当复合物受到 0.001 au 强度的外电场时,超极化率从 1.7 x 104 au 增加到 1.7 x 106 au。因此,当对络合物施加外电场时,络合物的电荷转移、极化性和超极化性都会增强,这对设计具有显著 NLO 响应的真正碱土化物是有效的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Theoretical design of alkaline earthides M+(36 adz) Be− (M+ = V, Cr, Mn, Fe, Co, Ni, Cu, and Zn) with excellent nonlinear optical response and ultraviolet transparency

Theoretical design of alkaline earthides M+(36 adz) Be− (M+ = V, Cr, Mn, Fe, Co, Ni, Cu, and Zn) with excellent nonlinear optical response and ultraviolet transparency

A novel series of alkaline earthides containing eight complexes based upon 36adz complexant are designed by placing carefully transition metals (V–Zn) on inner side and alkaline earth metal outer side of the complexant i.e., M+(36adz) Be (M+ = V, Cr, Mn, Fe, Co, Ni, Cu and Zn). All the designed compounds are electronically and thermodynamically stable as evaluated by their interaction energy and vertical ionization potential respectively. Moreover, the true nature of alkaline earthides is verified through NBOs and FMO study, showing negative charge and excess electrons on alkaline earth metal respectively. Furthermore, true alkaline earthides characteristics are evaluated graphically by spectra of partial density state (PDOS). The energy gap (HOMO -LUMO gap) is very small (ranging 2.95 eV–1.89 eV), when it is compared with pure cage 36adz HOMO-LUMO gap i.e., 8.50 eV. All the complexes show a very small value of transition energy ranging from 1.68eV to 0.89eV. Also, these possess higher hyper polarizability values up to 2.8 x 105au (for Co+(36adz) Be). Furthermore, an increase in hyper polarizability was observed by applying external electric field on complexes. The remarkable increase of 100fold in hyper polarizability of Zn+(36adz) Be complex is determined after application of external electric field i.e., from 1.7 x 104 au to 1.7 x 106 au when complex is subjected to external electric field of 0.001 au strength. So, when external electric field is applied on complexes it enhances the charge transfer, polarizability and hyper polarizability of complexes and proves to be effective for designing of true alkaline earthides with remarkable NLO response.

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来源期刊
Journal of molecular graphics & modelling
Journal of molecular graphics & modelling 生物-计算机:跨学科应用
CiteScore
5.50
自引率
6.90%
发文量
216
审稿时长
35 days
期刊介绍: The Journal of Molecular Graphics and Modelling is devoted to the publication of papers on the uses of computers in theoretical investigations of molecular structure, function, interaction, and design. The scope of the journal includes all aspects of molecular modeling and computational chemistry, including, for instance, the study of molecular shape and properties, molecular simulations, protein and polymer engineering, drug design, materials design, structure-activity and structure-property relationships, database mining, and compound library design. As a primary research journal, JMGM seeks to bring new knowledge to the attention of our readers. As such, submissions to the journal need to not only report results, but must draw conclusions and explore implications of the work presented. Authors are strongly encouraged to bear this in mind when preparing manuscripts. Routine applications of standard modelling approaches, providing only very limited new scientific insight, will not meet our criteria for publication. Reproducibility of reported calculations is an important issue. Wherever possible, we urge authors to enhance their papers with Supplementary Data, for example, in QSAR studies machine-readable versions of molecular datasets or in the development of new force-field parameters versions of the topology and force field parameter files. Routine applications of existing methods that do not lead to genuinely new insight will not be considered.
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