Wang Han-Xiao, Hu Shu-Zhen, Meng Zheng, Han Ying, Chen Chuan-Feng
Beijing National Laboratory for Molecular Sciences, CAS Key Laboratory of Molecular Recognition and Function, Institute of Chemistry, Chinese Academy of Sciences, Beijing, 100190, China.
University of Chinese Academy of Sciences, Beijing, 100049, China.
Chem Asian J. 2016 Oct 6;11(19):2756-2762. doi: 10.1002/asia.201600419. Epub 2016 Jul 8.
New triptycene-derived oxacalixarene H1 was efficiently synthesized by a template cyclization step, and anilino-substituted macrocycle H2 was subsequently afforded through straightforward nucleophilic displacement of the active chlorine atom in H1. Oxacalixarene H1 adopts a fixed boat-like 1,3-alternate conformation and shows moderate complexation abilities towards various bipyridinium salts. However, the affinities of H2 towards the guests were found to be substantially stronger, which could be tentatively attributed to the additional hydrogen-bonding site, π-π stacking site, and especially the increased electron richness of the host. Furthermore, the acid-base switchable complexation process between H1 and the bipyridinium salt was also realized, which could potentially facilitate the construction of high-level stimuli-responsive supramolecular structures based on the newly synthesized oxacalixarene.
通过模板环化步骤高效合成了新型三蝶烯衍生的氧杂杯芳烃H1,随后通过直接亲核取代H1中的活性氯原子得到了苯胺基取代的大环化合物H2。氧杂杯芳烃H1采用固定的船型1,3-交替构象,对各种联吡啶盐表现出适度的络合能力。然而,发现H2对客体的亲和力要强得多,这可能初步归因于额外的氢键位点、π-π堆积位点,尤其是主体电子丰富度的增加。此外,还实现了H1与联吡啶盐之间的酸碱可切换络合过程,这可能有助于基于新合成的氧杂杯芳烃构建高级刺激响应超分子结构。