Theoretical Interpretation of Polarized Light-Induced Supramolecular Orientation on the Basis of Normal Mode Analysis of Azobenzene as Hybrid Materials in PMMA with Chiral Schiff Base Ni(II), Cu(II), and Zn(II) Complexes

Maiko Ito, T. Akitsu, M. Palafox
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引用次数: 11

Abstract

We have prepared hybrid materials of azobenzene and chiral Schiff base Ni(II), Cu(II), and Zn(II) complexes and investigated their linearly or circularly polarized UV (ultraviolet) light-induced supramolecular orientation with polarized electronic and IR spectra or CD (circular dichroism) spectra. The experimental FT-IR (Fourier transfer-infrared) spectra of azobenzene molecules were recorded at room temperature, and the results were compared with quantum chemical theoretical values using B3LYP, M052X, and M062X DFT (density functional theory) methods. The interaction of azobenzene with PMMA was simulated. Molecular geometry, vibrational wavenumbers, and thermodynamic parameters were calculated in all these systems. With the help of specific scaling procedures for the computed wavenumbers, the experimentally observed FT-IR bands were analyzed and assigned to different normal modes of the molecule. Most modes had wavenumbers in the expected range, and the error obtained was in general very low. Several general conclusions were deduced.
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基于偶氮苯与手性席夫碱Ni(II)、Cu(II)、Zn(II)配合物在PMMA中杂化材料偏振光诱导超分子取向的理论解释
我们制备了偶氮苯与手性席夫碱Ni(II)、Cu(II)和Zn(II)配合物的杂化材料,并利用极化电子光谱和红外光谱或圆二色光谱研究了它们的线或圆极化紫外诱导超分子取向。利用B3LYP、M052X和M062X密度泛函方法,记录了偶氮苯分子在室温下的实验傅里叶转移红外光谱,并与量子化学理论值进行了比较。模拟了偶氮苯与PMMA的相互作用。在所有这些系统中计算了分子几何、振动波数和热力学参数。在计算波数的特定标度程序的帮助下,实验观察到的FT-IR波段被分析并分配给分子的不同正常模式。大多数模态的波数都在预期范围内,得到的误差一般都很低。得出了几个一般性的结论。
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