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In situ atomic observations of aggregation growth and evolution of penta-twinned gold nanocrystals

Engineering and Technology

In situ atomic observations of aggregation growth and evolution of penta-twinned gold nanocrystals

M. Song, D. Zhang, et al.

This groundbreaking study by Miao Song and colleagues explores the atomic-scale mechanisms behind the aggregation and evolution of penta-twinned gold nanocrystals, revealing how surface diffusion impacts nanoparticle morphology and promotes symmetrical formation. Their findings open new avenues for controlling twinned particle configurations in functional nanomaterial synthesis.

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Playback language: English
Abstract
This study investigates the atomic-scale mechanisms driving the aggregation and evolution of penta-twinned (5-FT) gold nanocrystals using in situ high-resolution transmission electron microscopy (HRTEM) and molecular dynamics (MD) simulations. The results show that surface diffusion significantly influences the morphology of aggregated nanoparticles, particularly in smaller ones, promoting symmetrical 5-FT formation. The inherent structure of 5-FT mitigates surface diffusion's dominance, retarding aggregation and fostering intricate twin structures. These findings enhance our ability to control the configuration of twinned particles for the synthesis of functional nanomaterials.
Publisher
Nature Communications
Published On
Oct 25, 2024
Authors
Miao Song, Dingri Zhang, Dan Leng, Jaewon Lee, Ziang Yang, Jiaxuan Chen, Dan Li, Lei Wang, Gang Zhou, Rui Yang, Kechao Zhou
Tags
penta-twinned gold nanocrystals
surface diffusion
nanoparticle morphology
aggregation
molecular dynamics simulations
twin structures

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