Surfaces, Journal Year: 2024, Volume and Issue: 7(3), P. 752 - 769
Published: Sept. 14, 2024
Polymer-based molecular tweezers have emerged as a prominent research area due to their enhanced ability form host–guest complexes, driven by advancements in design and synthesis. The impact of the spacer structure on is predominant. They can be rigid, flexible, stimuli-responsive. Herein, new generation introduced polymer-based tweezers. integration onto biopolymers has significantly expanded potential applications, making them promising candidates, especially drug delivery, owing biocompatibility, adaptive structural features, versatile interaction capabilities. unique tweezers, particularly when integrated with biopolymers, creates nano-environment that enhances guest molecules. This minireview focuses synthesis applications examines how incorporation various spacers affects binding affinity specificity. These features highlight advancement these systems, emphasizing water treatment technology, future opportunities.
Language: Английский