Halogen substituted bithiophene-based polycatenars with tunable fluorescence†

IF 5.2 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Mohamed Alaasar, Yu Cao, Thorben Neumann, Tianyi Tan, Feng Liu and Michael Giese
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Abstract

Efficient synthesis of extended π-conjugated systems containing sulphur-rich aromatics is of special interest for organic electronics. Herein, we report the synthesis of new π-conjugated 5,5′-diphenyl-2,2′-bithiophene-based tricatenars. The materials have the same aromatic backbone ending at one terminus with a 3,5-diheptyloxy substituted-benzene ring and a single hexyloxy chain at the other end. They differ from each other in the halogen substitution pattern used at the single alkylated end, where fluorine at different positions was used. The fluorine atom was also replaced by chlorine or bromine atoms to investigate the effect of different types of halogen substituents on the phase behaviour. The molecular self-assembly of the materials was investigated using differential scanning calorimetry, polarized optical microscopy, X-ray diffraction and fluorescence techniques. Depending on the type and position of the halogen substituent, different types of mesophases were observed, including nematic, smectic, and chiral isotropic liquid phase (Iso1[*]) and achiral double-gyroid bicontinuous cubic phases with a double helical network structure and Iad symmetry. In particular, the steric effect of halogen substituents adapts two different molecular packing for the cubic phase with local helicity and short-range order, respectively. All materials are fluorescent active, and their fluorescence behaviour could be altered by the type and position of the halogen substituent. Thus, this report provides new functional materials, which could be of interest for optoelectronic applications.

Abstract Image

具有可调荧光†的卤素取代噻吩基多烯碳化合物
高效合成含有富硫芳烃的扩展 π 共轭体系对有机电子学具有特殊意义。在此,我们报告了新的π-共轭 5,5′-二苯基-2,2′-噻吩基三萜的合成。这些材料具有相同的芳香族骨架,一个末端是 3,5- 二庚氧基取代苯环,另一个末端是单个己氧基链。它们的不同之处在于单个烷基化末端使用的卤素取代模式,即在不同位置使用氟。氟原子也被氯原子或溴原子取代,以研究不同类型的卤素取代基对相行为的影响。使用差示扫描量热法、偏振光学显微镜、X 射线衍射和荧光技术对材料的分子自组装进行了研究。根据卤素取代基的类型和位置,观察到了不同类型的介相,包括向列型、遮蔽型和手性各向同性液相(Iso1[*]),以及具有双螺旋网络结构和 Iad 对称性的非手性双甲酰双连续立方相。其中,卤素取代基的立体效应使立方相分别具有局部螺旋和短程有序两种不同的分子堆积。所有材料都具有荧光活性,其荧光行为可因卤素取代基的类型和位置而改变。因此,本报告提供了新的功能材料,可用于光电应用。
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来源期刊
Materials Advances
Materials Advances MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
7.60
自引率
2.00%
发文量
665
审稿时长
5 weeks
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