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W4382932083 endingPage "6527" @default.
W4382932083 startingPage "6520" @default.
W4382932083 abstract "Metal nanoparticles are attracting interest for their light-absorption properties, but such materials are known to dynamically evolve under the action of chemical and physical perturbations, resulting in changes in their structure and composition. Using a transmission electron microscope equipped for optical excitation of the specimen, the structural evolution of Cu-based nanoparticles under simultaneous electron beam irradiation and plasmonic excitation was investigated with high spatiotemporal resolution. These nanoparticles initially have a Cu core-Cu2O oxide shell structure, but over the course of imaging, they undergo hollowing via the nanoscale Kirkendall effect. We captured the nucleation of a void within the core, which then rapidly grows along specific crystallographic directions until the core is hollowed out. Hollowing is triggered by electron-beam irradiation; plasmonic excitation enhances the kinetics of the transformation likely by the effect of photothermal heating." @default.
W4382932083 created "2023-07-04" @default.
W4382932083 creator A5027430151 @default.
W4382932083 creator A5030902865 @default.
W4382932083 creator A5031914826 @default.
W4382932083 date "2023-07-03" @default.
W4382932083 modified "2023-10-16" @default.
W4382932083 title "In Situ Electron Microscopy of Transformations of Copper Nanoparticles under Plasmonic Excitation" @default.
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W4382932083 doi "https://doi.org/10.1021/acs.nanolett.3c01474" @default.
W4382932083 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37399502" @default.
W4382932083 hasPublicationYear "2023" @default.
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