聚合物
螺旋度
二面角
分子内力
手性(物理)
材料科学
螺旋(腹足类)
结晶学
化学物理
侧链
工作(物理)
纳米技术
共聚物
化学
轴手性
立体化学
分子动力学
凝聚态物理
圆二色性
之字形的
发色团
单体
动力学(音乐)
链条(单位)
光电子学
作者
Xi Zhang,Zhewen Ma,Yuanhao Feng,Xiaoxiao Cheng,Wei Zheng
摘要
Helical ladder polymers possess rigid, helically fused backbones that confer distinctive chiroptical properties, yet their integration into polymer brush architectures remains highly challenging. Here, we report the first synthesis of bottlebrush polymers with a helically fused ladder backbone, achieved through acid-catalyzed intramolecular cyclization followed by controlled ATRP grafting-from polymerization. By integrating a single-handed ladder scaffold with flexible, water-soluble PNIPAM side chains, the resulting architecture markedly enhances the processability and structural tunability of helical ladder polymers. Moreover, the traditional helical ladder, long regarded as completely rigid and static, has been found to exhibit dynamic transition properties. This change was caused by conformational triggering of the thermally driven binaphthyl dihedral angles, which was quantitatively confirmed by the thermodynamic dynamics and molecular dynamics simulations, demonstrating the hierarchy of the transition from axial chirality to helical chirality. Overall, this work establishes a promising synthetic method for helical ladder bottlebrush polymers and demonstrates their potential as versatile platforms for designing dynamic chiral materials.
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