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Unique Dynamics of Hierarchical Constrained Macromolecular Ligands on Coordination Nanocage Surface Promotes Facile and Precise Assembly of Polymers.

Mingxin ZhangShuqian HeQin ZouZi-Ang LiYuyan LaiKun ChenLitao MaJia-Fu YinMu LiChunyong HeYubin KePanchao Yin
Published in: The journal of physical chemistry letters (2021)
With access to the solution structures of nanocomposites of coordination nanocages (CNCs) via scattering and chromatography techniques, their mysterious solution dynamics have been, for the first time, resolved, and interestingly, the surface macromolecules can be substituted by extra free macromolecules in solutions. Obvious exchange of macromolecules can be observed in the solution mixtures of CNC nanocomposites at high temperatures, revising the understanding of the dynamics of CNC nanocomposites. Being distinct from nanocomposites of a simple coordination complex, the quantified solution dynamics of CNC nanocomposites indicates a typical logarithmic time dependence with the dissociation of surface macromolecules as the thermodynamically limiting step, suggesting strongly coupled and hierarchically constrained dynamics among the surface macromolecules. Their dynamics can be activated only upon application of high temperature or selected solvents, and therefore, the rational design of polymer assemblies, for example, hybrid-arm star polymers with precisely controlled compositions and reprocessable, robust CNC-cross-linked supramolecular polymer networks, is facilitated.
Keyphrases
  • reduced graphene oxide
  • carbon nanotubes
  • visible light
  • high temperature
  • mass spectrometry
  • ionic liquid
  • high resolution
  • quantum dots
  • molecular docking
  • solid state
  • highly efficient