151. Cyclic Ether Triggers for Polymeric Frustrated Lewis Pair Gels
- Author
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Thomas A. R. Horton, Michael P. Shaver, Utku Yolsal, and Meng Wang
- Subjects
chemistry.chemical_classification ,Steric effects ,Chemistry ,Communication ,General Chemistry ,Polymer ,Biochemistry ,Combinatorial chemistry ,Catalysis ,Frustrated Lewis pair ,Adduct ,Colloid and Surface Chemistry ,Covalent bond ,Reactivity (chemistry) ,Lewis acids and bases ,Macromolecule - Abstract
Sterically hindered Lewis acid and base centers are unable to form Lewis adducts, instead forming frustrated Lewis pairs (FLPs), where latent reactivity can be utilized for the activation of small molecules. Applying FLP chemistry into polymeric frameworks transforms this chemistry into responsive and functional materials. Here, we report a versatile synthesis strategy for the preparation of macromolecular FLPs and explore its potential with the ring-opening reactions of cyclic ethers. Addition of the cyclic substrates triggered polymer network formation, where the extent of cross-linking, strength of network, and reactivity are tuned by the steric and electronic properties of the ethers. The resultant networks behave like covalently cross-linked polymers, demonstrating the versatility of FLPs to simultaneously tune both small-molecule capture and mechanical properties of materials.
- Published
- 2021
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