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Self-Sorting vs Coassembly in Peptide Amphiphile Supramolecular Nanostructures

M. Hussain Sangji, Sieun Ruth Lee, Hiroaki Sai, Steven Weigand, Liam C. Palmer, Samuel I. Stupp

2024ACS Nano25 citationsDOIOpen Access PDF

Abstract

The functionality of supramolecular nanostructures can be expanded if systems containing multiple components are designed to either self-sort or mix into coassemblies. This is critical to gain the ability to craft self-assembling materials that integrate functions, and our understanding of this process is in its early stages. In this work, we have utilized three different peptide amphiphiles with the capacity to form β-sheets within supramolecular nanostructures and found binary systems that self-sort and others that form coassemblies. This was measured using atomic force microscopy to reveal the nanoscale morphology of assemblies and confocal laser scanning microscopy to determine the distribution of fluorescently labeled monomers. We discovered that PA assemblies with opposite supramolecular chirality self-sorted into chemically distinct nanostructures. In contrast, the PA molecules that formed a mixture of right-handed, left-handed, and flat nanostructures on their own were able to coassemble with the other PA molecules. We attribute this phenomenon to the energy barrier associated with changing the handedness of a β-sheet twist in a coassembly of two different PA molecules. This observation could be useful for designing biomolecular nanostructures with dual bioactivity or interpenetrating networks of PA supramolecular assemblies.

Topics & Concepts

Supramolecular chemistryNanostructureNanotechnologyMaterials scienceSelf-assemblyAmphiphileSupramolecular chiralityMoleculeChemistryPolymerCopolymerOrganic chemistryComposite materialSupramolecular Self-Assembly in MaterialsPolydiacetylene-based materials and applicationsLuminescence and Fluorescent Materials