Atienza Carmen M, Sánchez Luis
Departmento de Química Orgánica, Facultad de Ciencias Químicas, Universidad Complutense de Madrid, Ciudad Universitaria s/n, 28040, -Madrid, Spain.
Chemistry. 2024 Jun 3;30(31):e202400379. doi: 10.1002/chem.202400379. Epub 2024 Apr 25.
Different approaches to achieve 2D supramolecular polymers, as an alternative to the covalent bottom-up approaches reported for the preparation of 2D materials, are reviewed. The significance of the operation of weak non-covalent forces to induce a lateral growth of a number of self-assembling units is collected. The examples of both thermodynamically and kinetically controlled formation of 2D supramolecular polymers showed in this review demonstrate the utility of this strategy to achieve new 2D materials with biased morphologies (nanosheets, scrolls, porous surfaces) and showing elegant applications like chiral recognition, enantioselective uptake or asymmetric organic transformations. Furthermore, elaborated techniques like seeded or living supramolecular polymerizations have been demonstrated to give rise to complex 2D nanostructures.
本文综述了制备二维超分子聚合物的不同方法,这些方法可替代用于制备二维材料的自下而上的共价方法。文中收集了弱非共价力作用诱导多个自组装单元横向生长的重要意义。本综述中展示的二维超分子聚合物热力学和动力学控制形成的实例证明了该策略在制备具有特定形态(纳米片、卷曲物、多孔表面)的新型二维材料方面的实用性,这些材料还展现出诸如手性识别、对映选择性摄取或不对称有机转化等出色应用。此外,已证明诸如种子聚合或活性超分子聚合等精细技术可产生复杂的二维纳米结构。
