有机光学材料苯并咪唑-苦味酸苯并咪唑晶体的生长、结构和光谱研究

A. Jagadesan
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引用次数: 0

摘要

晶体工程师一直致力于通过静电、电荷转移、氢键相互作用来控制固体结构。特别是在非线性光学应用中,有机晶体具有良好的器件取向特性,如光学响应和大的光学极化率。在此基础上,我们重点研究了用低成本的溶液生长法生长苦味酸苯并咪唑晶体。该标本经受了不同的表征研究。单晶XRD证实了材料的三斜晶体结构(P-1),并通过紫外可见和SHG研究分析了材料的线性和非线性。通过FTIR和FT-Raman光谱研究,确定了材料中的分子振动、极化振动和各种官能团的存在。对晶体进行了高强光辐射测试,估计为1.39 GW/ cm2。版权所有©VBRI出版社。
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Growth, Structure and Spectroscopic Studies of an Organic Optical Material: Benzimidazole Benzimidazolium Picrate Crystal
Crystal engineers have focused to control the solid structures though electrostatic, charge transfer, hydrogen bonding interactions. In particular, organic crystals have very good device oriented characteristics like optical response and large optical polarizability for nonlinear optical applications. In this point of view, we have concentrated on the growth of Benzimidazole benzimidazolium picrate crystal by cost effective solution growth method. The specimen has been subjected to different characterization studies. The single crystal XRD confirms the triclinic crystal structure (P-1) and both linear and nonlinearity of the materials have been analysed through UV-visible and SHG studies. Molecular vibrations, polarisational vibrations and presence of various functional groups present in the material have been identified through FTIR and FT-Raman spectral studies. The high intense light radiation test was performed on the crystal and it was estimated to be 1.39 GW/cm 2 . Copyright © VBRI Press.
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