Cheng-Cher Huang, Shun Wang, Lidong Pan, Z. Q. Liu, B. McCoy, Y. Sasaki, K. Ema, P. Barois, R. Pindak
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引用次数: 11
摘要
在十多年的时间里,只有三个被证实的周期小于或等于四层的相应的SmC*变相。2006年,我们的研究团队利用椭偏仪和共振x射线衍射(RXRD)首次在含一种含硫化合物的三元混合物中发现了一种具有六层周期性的新型液晶中间相。从我们的椭偏结果来看,这一相表现出反铁电的光学响应。这一新发现激发了人们对寻找周期性大于四层的液晶中间相的兴趣。不久之后,另一种中间相具有六层结构,并表现出类似铁电的介电响应,相反,通过RXRD测量发现了另一种二元混合物,其中含有一种含溴化合物。同时,还报道了具有5层、8层、12层或15层周期性的中间相。然而,与这些不寻常的报告阶段相关的许多问题仍有待解决。提出了周期大于四层的中间相的理论模型;但是,到目前为止,他们都没有提供令人满意的解释所有的物理现象有关的中间相显示六层结构。此外,问题是“液体类近晶层之间的远程相互作用的来源是什么?这些相互作用负责建立具有长周期的中间相和近晶- a -近晶- c跃迁的平均场行为?”这个问题三十多年来一直没有答案。
For more than one decade, were the only three confirmed commensurate SmC* variant phases with periodicities less than or equal four layers. In 2006, employing ellipsometry and resonant X-ray diffraction (RXRD), our research team first discovered a new liquid crystal mesophase having a six-layer periodicity in one ternary mixture which includes one sulfur-containing compound. From our ellipsometric results, this phase showed antiferroelectric-like optical response. This novel discovery inspired renewed interest to search for liquid crystal mesophases with commensurate periodicities greater than four layers. Soon after, another mesophase having a six-layer structure and showing a ferrielectric-like dielectric response, instead, was uncovered by RXRD measurements on a different binary mixture which has one bromine-containing compound. Meanwhile mesophases having a 5-, 8-, 12- or 15-layer periodicity were reported. However, numerous questions remain to be addressed associated with these unusual reported phases. Theoretical models giving rise to mesophases with periodicities greater than four layers have been developed; but, to date, none of them have provided satisfactory explanations of all the physical phenomena related to the mesophases exhibiting a six-layer structure. Moreover, the question “what is the source of long-range interactions between liquid-like smectic layers, which are responsible for establishing mesophases with long periodicities and mean-field behavior of the smectic-A–smectic-C transition?” remains unanswered for more than three decades.
期刊介绍:
Liquid Crystals Reviews publishes review articles on all aspects of liquid crystal fundamentals and applied science, including experimental and theoretical studies of physical and chemical properties, molecular design and synthesis and engineering of liquid crystal devices. The Journal fosters cross-disciplinary exchange of ideas, encouraging authors to present material at a level accessible to specialists from other fields of science and engineering. Liquid Crystals Reviews provides the scientific community, in both academia and industry, with a publication of standing, guaranteed by the Editors and by the International Editorial Board who are active scientists in the worldwide liquid crystal community.
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