Li Ya-Xin, Jia Ruo-Yin, Ungar Goran, Ma Tao, Zhao Kai, Zeng Xiang-Bing, Cheng Xiao-Hong
School of Chemistry and Chemical Engineering, Henan University of Technology, Zhengzhou, 450001, China.
State Key Laboratory for Mechanical Behaviour of Materials, Shaanxi International Research Center for Soft Matter, Xi'an Jiaotong University, Xi'an, 710049, China.
Angew Chem Int Ed Engl. 2024 Nov 11;63(46):e202413215. doi: 10.1002/anie.202413215. Epub 2024 Sep 23.
Gyroid, double diamond and the body-centred "Plumber's nightmare" are the three most common bicontinuous cubic phases in lyotropic liquid crystals and block copolymers. While the first two are also present in solvent-free thermotropics, the latter had never been found. Containing six-fold junctions, it was unlikely to form in the more common phases with rod-like cores normal to the network columns, where a maximum of four branches can join at a junction. The solution has therefore been sought in side-branched mesogens that lie in axial bundles joined at their ends by flexible "hinges". But for the tightly packed double framework, geometric models predicted that the side-chains should be very short. The true Plumber's nightmare reported here, using fluorescent dithienofluorenone rod-like mesogen, has been achieved with, indeed, no side chains at all, but with 6 flexible end-chains. Such molecules normally form columnar phases, but the key to converting a complex helical column-forming mesogen into a framework-forming one was the addition of just one methyl group to each pendant chain. A geometry-based explanation is given.
类螺旋体、双菱形和体心“管道工的噩梦”是溶致液晶和嵌段共聚物中三种最常见的双连续立方相。虽然前两者也存在于无溶剂热致液晶中,但后者从未被发现。由于它包含六重连接点,所以不太可能在更常见的、棒状核垂直于网络柱的相中形成,在这些相中,一个连接点最多只能有四个分支相连。因此,人们一直在侧链液晶元中寻找解决方案,这些侧链液晶元位于轴向束中,通过柔性“铰链”在其末端相连。但对于紧密堆积的双框架结构,几何模型预测侧链应该非常短。这里报道的真正的“管道工的噩梦”,使用荧光二噻吩并芴酮棒状液晶元,实际上根本没有侧链,而是有6条柔性端链。这类分子通常形成柱状相,但将复杂的形成螺旋柱的液晶元转变为形成框架的液晶元的关键在于,给每条悬链只添加一个甲基。本文给出了基于几何结构的解释。
