Laser Shock-Induced Polycrystallization Engineering for Plasmon Damping Tuning of Metallic Nanoparticles
YL He and J Liu and YZ Hu and YW Hu, ADVANCED OPTICAL MATERIALS, 11 (2023).
DOI: 10.1002/adom.202202429
Currently, lattice defect engineering provides an effective route for plasmon damping adjustment. To address the low efficiency of defect introduction in nanoparticles, a laser shock-induced polycrystallization strategy is proposed. The results demonstrate that Au nanoparticles undergoing the ultrahigh-strain-rate compression process exhibit effective grain boundary defect introduction and plasmonic damping tuning effects. The size dependence of the polycrystallization process and plasticity mechanism of nanoparticles are comprehensively explored. The correlation between the optical properties and microstructure of the deformed nanoparticles is established. The proposed process provides a facile strategy for optical loss tuning and complements the plastic deformation mechanism of plasmonic nanoparticles in extreme deformations.
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