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Peptoid‐Directed Formation of Five‐Fold Twinned Au Nanostars through Particle Attachment and Facet Stabilization

Biao Jin, Feng Yan, Xin Qi, Bin Cai, Jinhui Tao, Xiaofeng Fu, Susheng Tan, Peijun Zhang, Jim Pfaendtner, Nada Y. Naser, François Baneyx, Xin Zhang, James J. DeYoreo, Chun‐Long Chen

2022Angewandte Chemie International Edition16 citationsDOIOpen Access PDF

Abstract

While bio-inspired synthesis offers great potential for controlling nucleation and growth of inorganic particles, precisely tuning biomolecule-particle interactions is a long-standing challenge. Herein, we used variations in peptoid sequence to manipulate peptoid-Au interactions, leading to the synthesis of concave five-fold twinned, five-pointed Au nanostars via a process of repeated particle attachment and facet stabilization. Ex situ and liquid-phase TEM observations show that a balance between particle attachment biased to occur near the star points, preferential growth along the [100] direction, and stabilization of (111) facets is critical to forming star-shaped particles. Molecular simulations predict that interaction strengths between peptoids and distinct Au facets differ significantly and thus can alter attachment kinetics and surface energies to form the stars. This work provides new insights into how sequence-defined ligands affect particle growth to regulate crystal morphology.

Topics & Concepts

PeptoidNucleationChemistryParticle (ecology)CrystallographyChemical physicsNanotechnologyFacet (psychology)Materials sciencePeptideBiochemistryPsychologyOrganic chemistryBig Five personality traitsSocial psychologyGeologyOceanographyPersonalityDiatoms and Algae ResearchMolecular Junctions and NanostructuresSurface Chemistry and Catalysis
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