DOI: 10.1002/ange.202400989 ISSN: 0044-8249

Anion‐Coordination Foldamer‐Based Polymer Network: from Molecular Spring to Elastomer

Jiangping Qin, Yongming Wang, Tian Wang, Na Wang, Wenhua Xu, Lin Cheng, Wei Yu, Xuzhou Yan, Lingyan Gao, Bo Zheng, Biao Wu
  • General Medicine

Foldamer is a scaled‐down version of coil spring, which can absorb and release energy by conformational change. Here, polymer networks with high‐density of molecular springs were developed by employing anion‐coordination‐based foldamers as the monomer. The coiling of the foldamer is controlled by oligourea ligands coordinating to chloride ions; subsequently, the folding and unfolding of foldamer conformations endow the polymer network with excellent energy dissipation and toughness. The mechanical performance of the corresponding polymer network shows a dramatic increase from P‐L2UCl (non‐folding), P‐L4UCl (a full turn) to P‐L6UCl (1.5 turns), in terms of strength (2.62 MPa; 14.26 Mpa; 22.93 Mpa), elongation at break (70%; 325%; 352%), Young’s modulus (2.69 MPa; 63.61 Mpa; 141.50 Mpa), and toughness (1.12 MJ/m3; 21.39 MJ/m3; 49.62 MJ/m3), respectively, which are also better than those without anion centers and the non‐foldamer based counterparts. Moreover, P‐L6UCl shows enhanced strength and toughness than most of the molecular‐spring based polymer networks.Moreover, P‐L6UCl shows enhanced strength and toughness than most of the molecular‐spring based polymer networks. Thus, an effective strategy for designing high‐performance anion‐coordination‐based materials is presented in this study.

More from our Archive