Macromolecular metamorphosis via stimulus-induced transformations of polymer architecture
Version 2 2024-06-13, 12:17Version 2 2024-06-13, 12:17
Version 1 2018-06-19, 10:53Version 1 2018-06-19, 10:53
journal contribution
posted on 2024-06-13, 12:17authored byHao Sun, Christopher P Kabb, Yuqiong Dai, Megan R Hill, Ion Ghiviriga, Abhijeet P Bapat, Brent S Sumerlin
Macromolecular architecture plays a pivotal role in determining the properties of polymers. When designing polymers for specific applications, it is not only the size of a macromolecule that must be considered, but also its shape. In most cases, the topology of a polymer is a static feature that is inalterable once synthesized. Using reversible-covalent chemistry to prompt the disconnection of chemical bonds and the formation of new linkages in situ, we report polymers that undergo dramatic topological transformations via a process we term macromolecular metamorphosis. Utilizing this technique, a linear amphiphilic block copolymer or hyperbranched polymer undergoes ‘metamorphosis’ into comb, star and hydrophobic block copolymer architectures. This approach was extended to include a macroscopic gel which transitioned from a densely and covalently crosslinked network to one with larger distances between the covalent crosslinks when heated. These architectural transformations present an entirely new approach to ‘smart’ materials.