Laser printing based on curvature-driven shape transition of aluminum nanodiscs [Invited]

Yudong Lu; Dejiao Hu; Mingsi Zhang; Lechen Yang; Jiafang Li; Yaoyu Cao; Xiangping Li

doi:10.3788/COL202119.053602

Laser printing based on curvature-driven shape transition of aluminum nanodiscs [Invited]

Yudong Lu, Dejiao Hu, Mingsi Zhang^*, Lechen Yang, Jiafang Li, Yaoyu Cao, Xiangping Li^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

5 Citations (Scopus)

Abstract

Plasmonic structural colors have plenty of advantages over traditional colors based on colorants. The pulsed laser provides an important method generating plasmonic structural colors with high efficiency and low cost. Here, we present plasmonic color printing Al nanodisc structures through curvature-driven shape transition. We systematically study the mechanism of morphologic evolution of the Al nanodisc below the thermal melting threshold. A multi-pulse-induced accumulated photothermal effect and subsequent curvature-driven surface atom diffusion model are adopted to explain the controllable shape transition. The shape transition and corresponding plasmonic resonances of the nanodisc can be independently and precisely modulated by controlled irradiations. This method opens new ways towards high-fidelity color prints in a highly efficient and facile laser writing fashion.

Original language	English
Article number	053602
Journal	Chinese Optics Letters
Volume	9
Issue number	5
DOIs	https://doi.org/10.3788/COL202119.053602
Publication status	Published - 10 Apr 2021
Externally published	Yes

Keywords

Color
Photothermal effects
Subwavelength structures
Surface plasmons

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title = "Laser printing based on curvature-driven shape transition of aluminum nanodiscs [Invited]",

abstract = "Plasmonic structural colors have plenty of advantages over traditional colors based on colorants. The pulsed laser provides an important method generating plasmonic structural colors with high efficiency and low cost. Here, we present plasmonic color printing Al nanodisc structures through curvature-driven shape transition. We systematically study the mechanism of morphologic evolution of the Al nanodisc below the thermal melting threshold. A multi-pulse-induced accumulated photothermal effect and subsequent curvature-driven surface atom diffusion model are adopted to explain the controllable shape transition. The shape transition and corresponding plasmonic resonances of the nanodisc can be independently and precisely modulated by controlled irradiations. This method opens new ways towards high-fidelity color prints in a highly efficient and facile laser writing fashion.",

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author = "Yudong Lu and Dejiao Hu and Mingsi Zhang and Lechen Yang and Jiafang Li and Yaoyu Cao and Xiangping Li",

note = "Publisher Copyright: {\textcopyright} 2021 Chinese Optics Letters",

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doi = "10.3788/COL202119.053602",

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T1 - Laser printing based on curvature-driven shape transition of aluminum nanodiscs [Invited]

AU - Lu, Yudong

AU - Hu, Dejiao

AU - Zhang, Mingsi

AU - Yang, Lechen

AU - Li, Jiafang

AU - Cao, Yaoyu

AU - Li, Xiangping

PY - 2021/4/10

Y1 - 2021/4/10

N2 - Plasmonic structural colors have plenty of advantages over traditional colors based on colorants. The pulsed laser provides an important method generating plasmonic structural colors with high efficiency and low cost. Here, we present plasmonic color printing Al nanodisc structures through curvature-driven shape transition. We systematically study the mechanism of morphologic evolution of the Al nanodisc below the thermal melting threshold. A multi-pulse-induced accumulated photothermal effect and subsequent curvature-driven surface atom diffusion model are adopted to explain the controllable shape transition. The shape transition and corresponding plasmonic resonances of the nanodisc can be independently and precisely modulated by controlled irradiations. This method opens new ways towards high-fidelity color prints in a highly efficient and facile laser writing fashion.

AB - Plasmonic structural colors have plenty of advantages over traditional colors based on colorants. The pulsed laser provides an important method generating plasmonic structural colors with high efficiency and low cost. Here, we present plasmonic color printing Al nanodisc structures through curvature-driven shape transition. We systematically study the mechanism of morphologic evolution of the Al nanodisc below the thermal melting threshold. A multi-pulse-induced accumulated photothermal effect and subsequent curvature-driven surface atom diffusion model are adopted to explain the controllable shape transition. The shape transition and corresponding plasmonic resonances of the nanodisc can be independently and precisely modulated by controlled irradiations. This method opens new ways towards high-fidelity color prints in a highly efficient and facile laser writing fashion.

KW - Color

KW - Photothermal effects

KW - Subwavelength structures

KW - Surface plasmons

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U2 - 10.3788/COL202119.053602

DO - 10.3788/COL202119.053602

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JO - Chinese Optics Letters

JF - Chinese Optics Letters

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ER -

Laser printing based on curvature-driven shape transition of aluminum nanodiscs [Invited]

Abstract

Keywords

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