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Hierarchical supramolecular assembly of a single peptoid polymer into a planar nanobrush with two distinct molecular packing motifs

Jing Sun, Zhiwei Wang, Chenhui Zhu, Meiyao Wang, Zhekun Shi, Yuhan Wei, Xiaohui Fu, Xuesi Chen, Ronald N. Zuckermann

2020Proceedings of the National Academy of Sciences61 citationsDOIOpen Access PDF

Abstract

-octylglycine) in a one-pot preparation. We demonstrate that the superstructures result from the temperature-controlled hierarchical self-assembly of preformed spherical micelles by optimizing the crystallization-solvophobicity balance. Particularly remarkable is that these micelles first assemble into linear arrays at elevated temperatures, which, upon cooling, subsequently template further lateral, crystallization-driven assembly in a living manner. Addition of the diblock copolymer chains to the growing nanostructure occurs via a loosely organized micellar intermediate state, which undergoes an unfolding transition to the final crystalline state in the nanobrush. This assembly mechanism is distinct from previous crystallization-driven approaches which occur via unimer addition, and is more akin to protein crystallization. Interestingly, nanobrush formation is conserved over a variety of preparation pathways. The precise control ability over the superstructure, combined with the excellent biocompatibility of polypeptoids, offers great potential for nanomaterials inaccessible previously for a broad range of advanced applications.

Topics & Concepts

PeptoidSupramolecular chemistryPlanarSupramolecular assemblyChemistrySupramolecular polymersPolymerNanotechnologyCombinatorial chemistryMaterials scienceStereochemistryCrystallographyComputer scienceBiochemistryPeptideOrganic chemistryCrystal structureComputer graphics (images)Chemical Synthesis and AnalysisSupramolecular Self-Assembly in MaterialsSupramolecular Chemistry and Complexes