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利用卤素-卤素和CH/π相互作用作为弱分子间相互作用进行粘康酸酯的拓扑化学聚合的晶体工程

Crystal engineering for topochemical polymerization of muconic esters using halogen-halogen and CH/pi interactions as weak intermolecular interactions.

作者信息

Matsumoto Akikazu, Tanaka Toshihiro, Tsubouchi Takashi, Tashiro Kohji, Saragai Seishi, Nakamoto Shinsuke

机构信息

PRESTO, Japan Science and Technology Corporation (JST), Conversion and Control by Advanced Chemistry, Sugimoto, Sumiyoshi-ku, Osaka 558-8585, Japan.

出版信息

J Am Chem Soc. 2002 Jul 31;124(30):8891-902. doi: 10.1021/ja0205333.

Abstract

We now report the molecular and crystal structure design of muconic ester derivatives on the basis of crystal engineering using halogen-halogen contacts and CH/pi interactions. The solid-state photoreaction pathway of the dibenzyl (Z,Z)-muconates as the 1,3-diene dicarboxylic acid monomers depends on the structure of the ester groups. The substitution of a halogen atom for the aromatic hydrogen of a benzyl group induces topochemical polymerization to produce stereoregular polymers in a crystalline form, whereas the unsubstituted benzyl derivative isomerizes to yield the corresponding E,E isomer under similar conditions. The topochemical polymerization process is directly confirmed by the fact that the single-crystal structures before and after the polymerization are very similar to each other. From the crystal structure analysis for a series of substituted benzyl (Z,Z)- and (E,E)-muconates, it has been revealed that the planar diene moieties are closely packed to form a columnar structure in the crystals. The stacking of the polymerizable monomers is characterized by a stacking distance of 4.9-5.2 A along the columns. This structure is supported by a halogen-halogen interaction between the chlorine or bromine atoms introduced at the p position of the benzyl groups in addition to an aromatic stacking due to the CH/pi interaction between the benzylic methylene hydrogens and aromatic rings. The design of a monomer packing corresponds to the type and position of the introduced halogen atom and also the polymorphs. To make a stacking distance of 5 A using both halogen-halogen and CH/pi interactions as supramolecular synthons is important for the molecular design of muconic ester derivatives appropriate for topochemical polymerization.

摘要

我们现在报告基于晶体工程,利用卤素 - 卤素相互作用和CH/π相互作用对粘康酸酯衍生物进行的分子和晶体结构设计。作为1,3 - 二烯二羧酸单体的二苄基(Z,Z)-粘康酸酯的固态光反应途径取决于酯基的结构。用卤原子取代苄基的芳氢会引发拓扑化学聚合,以结晶形式生成立构规整聚合物,而未取代的苄基衍生物在类似条件下异构化生成相应的E,E异构体。聚合前后的单晶结构彼此非常相似这一事实直接证实了拓扑化学聚合过程。通过对一系列取代苄基(Z,Z)-和(E,E)-粘康酸酯的晶体结构分析发现,平面二烯部分在晶体中紧密堆积形成柱状结构。可聚合单体的堆积特征是沿柱方向的堆积距离为4.9 - 5.2 Å。除了苄基亚甲基氢与芳环之间的CH/π相互作用导致的芳环堆积外,这种结构还由苄基对位引入的氯或溴原子之间的卤素 - 卤素相互作用支撑。单体堆积的设计对应于引入的卤原子的类型和位置以及多晶型物。利用卤素 - 卤素和CH/π相互作用作为超分子合成子来实现5 Å的堆积距离,对于适合拓扑化学聚合的粘康酸酯衍生物的分子设计很重要。

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