Login / Signup

Diverse functional polyethylenes by catalytic amination.

Nicodemo R CicciaJake X ShiSubhajit PalMutian HuaKaterina G MalollariCarlos Lizandara-PueyoEugen RistoMartin ErnstBrett A HelmsPhillip B MessersmithJohn F Hartwig
Published in: Science (New York, N.Y.) (2023)
Functional polyethylenes possess valuable bulk and surface properties, but the limits of current synthetic methods narrow the range of accessible materials and prevent many envisioned applications. Instead, these materials are often used in composite films that are challenging to recycle. We report a Cu-catalyzed amination of polyethylenes to form mono- and bifunctional materials containing a series of polar groups and substituents. Designed catalysts with hydrophobic moieties enable the amination of linear and branched polyethylenes without chain scission or cross-linking, leading to polyethylenes with otherwise inaccessible combinations of functional groups and architectures. The resulting materials possess tunable bulk and surface properties, including toughness, adhesion to metal, paintability, and water solubility, which could unlock applications for functional polyethylenes and reduce the need for complex composites.
Keyphrases
  • room temperature
  • ionic liquid
  • staphylococcus aureus
  • gold nanoparticles
  • quantum dots
  • crystal structure
  • aqueous solution
  • carbon nanotubes