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Design of Linear Block Copolymers and ABC Star Terpolymers That Produce Two Length Scales at Phase Separation.

Merin JosephDaniel J ReadAlastair M Rucklidge
Published in: Macromolecules (2023)
Quasicrystals (materials with long-range order but without the usual spatial periodicity of crystals) were discovered in several soft matter systems in the last 20 years. The stability of quasicrystals has been attributed to the presence of two prominent length scales in a specific ratio, which is 1.93 for the 12-fold quasicrystals most commonly found in soft matter. We propose design criteria for block copolymers such that quasicrystal-friendly length scales emerge at the point of phase separation from a melt, basing our calculations on the Random Phase Approximation. We consider two block copolymer families: linear chains containing two different monomer types in blocks of different lengths, and ABC star terpolymers. In all examples, we are able to identify parameter windows with the two length scales having a ratio of 1.93. The models that we consider that are simplest for polymer synthesis are, first, a monodisperse A L BA S B melt and, second, a model based on random reactions from a mixture of A L , A S , and B chains: both feature the length scale ratio of 1.93 and should be relatively easy to synthesize.
Keyphrases
  • machine learning
  • deep learning
  • drug delivery
  • mass spectrometry