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Programmed folding into spiro-multicyclic polymer topologies from linear and star-shaped chains.

Yoshinobu MatoKohei HondaBrian J ReeKenji TajimaTakuya YamamotoTetsuo DeguchiTakuya IsonoToshifumi Satoh
Published in: Communications chemistry (2020)
The development of precise folding techniques for synthetic polymer chains that replicate the unique structures and functions of biopolymers has long been a key challenge. In particular, spiro-type (i.e., 8-, trefoil-, and quatrefoil-shaped) polymer topologies remain challenging due to their inherent structural complexity. Herein, we establish a folding strategy to produce spiro-type multicyclic polymers via intramolecular ring-opening metathesis oligomerization of the norbornenyl groups attached at predetermined positions along a synthetic polymer precursor. This strategy provides easy access to the desired spiro-type topological polymers with a controllable number of ring units and molecular weight while retaining narrow dispersity (Ɖ < 1.1). This effective strategy marks an advancement in the development of functionalized materials composed of specific three-dimensional nanostructures.
Keyphrases
  • single molecule
  • molecular dynamics simulations
  • high resolution
  • quantum dots
  • solid phase extraction