对映体药物
连接器
结晶学
聚合物
材料科学
锆
表征(材料科学)
反应性(心理学)
马里蒂玛热带鱼
手性(物理)
水解
六方晶系
化学
金属
立体化学
高分子化学
镧系元素
催化作用
单晶
X射线晶体学
衍射
晶体工程
晶体结构
Crystal(编程语言)
纳米技术
作者
Junhua Zhang,Ji Guo,Pengfu Gao,Cheng Cheng,Yong Cui,Wei Gong
摘要
ABSTRACT Synthetic one‐dimensional (1D) helical polymers are an intriguing class of functional materials that have been pursued for decades. Despite numerous reports of single‐stranded helical polymers, the synthesis of double‐stranded, entwined helical polymers with deterministic atomic coordinates remains a significant challenge. Herein, through judicious linker conformation engineering, we target two double‐stranded helical metallopolymer single crystals that consist of robust hexanuclear Zr 6 O 4 (OH) 4 clusters and inherently helical methano‐ or ethano‐Tröger base (TB) scaffolds. The racemic TB linkers undergo spontaneous resolution and narcissistic self‐sorting to from large single crystals of helical metallopolymer conglomerate, which can be rendered homochiral by employing enantiopure TB linkers. Characterization by single‐crystal X‐ray diffraction showed that, the two homochiral strands are bound together through Zr 6 ‐carboxylate knots, which further arrange with respect to 6 1 screw axis to engender 1D hexagonal channels. The resulting chemically stable metallopolymer conglomerates were demonstrated to be capable of catalyzing the normally acidic hydrolysis of orthoformates in basic solution with exceptional reactivity and selectivity, while the homochiral version was shown to be a remarkable chiral fluorescent sensor for amino alcohols. Our work, therefore provides an unparalleled example where linker conformation engineering serves as powerful tool for architecting sophisticated helical polymeric structures and achieving enzyme‐mimic catalysis and recognition.
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