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Visualizing defect dynamics by assembling the colloidal graphene lattice

Physics

Visualizing defect dynamics by assembling the colloidal graphene lattice

P. J. M. Swinkels, Z. Gong, et al.

This groundbreaking research by Piet J. M. Swinkels and colleagues delves into the fascinating world of colloidal graphene, revealing how defects are formed and healed at a microscopic level. By employing confocal microscopy, the team visualizes key defect structures and uncovers the kinetic preferences that lead to their emergence, providing insights for future 2D material assembly.

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Playback language: English
Abstract
This paper investigates the formation and healing of defects in colloidal graphene, a two-dimensional material analogous to atomic graphene. Using confocal microscopy, the researchers observed the assembly process of pseudo-trivalent patchy particles, directly visualizing defects like grain boundaries and vacancies. A kinetically favored pentagonal defect motif was identified as a seed for larger defects. The study determined the conformational energy of the crystal and followed its evolution during defect rearrangement and healing, revealing that common defects originate in the early growth stages due to the kinetic preference for pentagons over equilibrium hexagons. The findings contribute to understanding defect formation in 2D materials and pave the way for assembling complex 2D colloidal materials.
Publisher
Nature Communications
Published On
Mar 18, 2023
Authors
Piet J. M. Swinkels, Zhe Gong, Stefano Sacanna, Eva G. Noya, Peter Schall
Tags
colloidal graphene
defect formation
confocal microscopy
pentagonal defects
2D materials
defect healing
kinetic preference

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