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Designing Sequence-Defined Peptoids for Biomimetic Control over Inorganic Crystallization

Wenchao Yang, Qiuxiang Yin, Chun‐Long Chen

2021Chemistry of Materials31 citationsDOIOpen Access PDF

Abstract

Crystallization defines what the world is all about, ranging from biomineralization in living organisms to various materials in our lives. During these processes, peptides and proteins involved in biomineralization set excellent examples of additive-controlled crystallization. To mimic these natural systems and develop biomimetic approaches for controlling inorganic crystallization, sequence-defined peptoids, as one of the most advanced synthetic foldamers that mimic peptides and proteins, have been recently designed and explored for directing the formation of inorganic (nano)materials acting as surfactant-like soluble additives or self-assembled scaffolds due to their unique advantages (e.g., high programmability and stability). In this review, we extract the main concepts of peptoid engineering and highlight the recent advances in peptoid-controlled inorganic crystal formation. Our focus is to correlate the peptoid side chain chemistry with the morphological and kinetic control over inorganic (nano)crystal formation and to understand the principles in these biomimetic inorganic crystallization systems with respect to the predictive synthesis of organic–inorganic hybrid materials with desirable structures and physicochemical properties.

Topics & Concepts

PeptoidBiomineralizationCrystallizationChemistryNanotechnologyProtein crystallizationBiomimetic materialsCombinatorial chemistryMaterials sciencePeptideChemical engineeringOrganic chemistryBiochemistryEngineeringChemical Synthesis and AnalysisDiatoms and Algae ResearchSupramolecular Self-Assembly in Materials
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