Effects of annealing temperature on morphological and optical properties of Ag nanoparticle array and its application in SERS

Ordered metal nanoparticle (NP) arrays have attracted tremendous attention for potential plasmonic applications due to their unique surface plasmon resonance. Herein, we fabricated highly ordered Ag NP arrays employing anodized aluminum (Al) templates and the vacuum thermal evaporation technique. Th...

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Bibliographic Details
Published in:Optical materials 2022-06, Vol.128, p.112381, Article 112381
Main Authors: Liu, Yanqi, Li, Muhua, Liang, Lingling, Feng, Chao, Zhang, Yongzhi, Liu, Xuan, Zhao, Yan
Format: Article
Language:English
Subjects:
Ag nanoparticle arrays
Annealing temperature
Surface plasmon resonance
Surface-enhanced Raman spectroscopy
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Summary:Ordered metal nanoparticle (NP) arrays have attracted tremendous attention for potential plasmonic applications due to their unique surface plasmon resonance. Herein, we fabricated highly ordered Ag NP arrays employing anodized aluminum (Al) templates and the vacuum thermal evaporation technique. The morphological evolution and corresponding optical property changes of the Ag NP arrays during annealing treatment has been investigated. It is found that there is a transition point approximately at annealing temperature of 290°C, where the shape of Ag NPs is most spherical and the peak position of quadrupole mode has a largest wavelength about 500 nm. Then, the surface-enhanced Raman spectra of Rhodamine 6G on Ag NP arrays annealed at different temperatures has been demonstrated at an excitation wavelength of 532 nm. The maximum SERS enhancement is also observed at 290°C. Our findings provide a way to further improve the performance of the plasmonic structures. [Display omitted] •Effects of annealing temperature on morphological and LSPR properties have been investigated.•The shape of Ag NPs changes from ellipsoid to sphere with the increase of annealing temperature.•The Ag NP array annealed at 290°C obtained an optimum Raman detection sensitivity for R6G at an excitation of 532 nm.
ISSN:0925-3467
1873-1252
DOI:10.1016/j.optmat.2022.112381