AI Article Synopsis
- The design of supramolecular hydrogels with aligned domains is key for creating biomimetic materials and enhancements in optoelectronics.
- Self-assembly of small molecules into long fibers, which can be aligned with external forces, provides a method to achieve these materials.
- The study explores a 'forging' technique that utilizes dynamic properties of the hydrogel to convert and organize the network structure from random to aligned fibers through a controlled gel-to-sol-to-gel transition.
Article Abstract
The design of supramolecular hydrogels comprising aligned domains is important for the fabrication of biomimetic materials and applications in optoelectronics. One way to access such materials is by the self-assembly of small molecules into long fibres, which can be aligned using an external stimulus. Out-of-equilibrium supramolecular gels can also be designed, where pre-programmed changes of state can be induced by the addition of chemical fuels. Here we exploit these dynamic properties to form materials with aligned domains through a 'forging' approach: an external force is used to rearrange the underlying network from random to aligned fibres as the system undergoes a pre-programmed gel-to-sol-to-gel transition. We show that we can predictably organize the supramolecular fibres, leading to controllable formation of materials with aligned domains through a high degree of temporal control.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11628395 | PMC |
| http://dx.doi.org/10.1038/s44160-024-00623-4 | DOI Listing |
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