Cooperative intermolecular interactions regulate supramolecular polymer assembly
Supramolecular chemistry involves the study of self-assembly of discrete molecules that are used to build large functional structures. Often, these molecules are allowed to self-assemble into one-dimensional polymeric structures (supramolecular polymers or SPs) in a suitable environment, and the dynamic molecular interactions are noted for tweaking the environment and improving the features of the resulting SPs. They are being explored as the next-generation polymeric materials with applications in electronics, soft-robotics, nanofabrication, and biomedical fields. In living systems, biological supramolecules, such as microtubules that form the cytoskeleton, play essential roles. Microtubules assemble in a helical fashion, which allows lateral (circumferential) interactions between neighboring proteins as well as longitudinal (helical axis) interactions between non-neighboring protein molecules, when one helical turn comes in contact with the next.
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