Plasmonic On-Demand Design via 3D Nanoprinting

David Kuhness; Gerald Kothleitner; Harald Plank

Abstract

Plasmonic nanoparticles have unique optical properties due to their size and shape, and are increasingly being incorporatedinto commercial products and technologies, ranging from photovoltaics to biological and chemical sensors[1]. The control on shifting and tuning of the plasmonic response depend highly on the abilities to control the finalshape of the nano-particles in every detail. Expansion towards the third dimension in cotnrast to traditionally planarplasmonic structures crucially enhances the design possibilities. 3-D nano-printing via focused electron beam induceddeposition (3D-FEBID) allows flexible fabrication with nanoscale precision [2]. In addition, it has been proven to be aversatile fabrication method to achieve on-demand design of plasmonically active nanostructures [3-6].

Originalsprache	englisch
Seiten	32
Publikationsstatus	Veröffentlicht - 2022
Veranstaltung	8th FEBIP Workshop of the Focused-Electron-Beam-Induced-Processing: FEBIP 2022 - Krakow, Krakow, Polen Dauer: 12 Juli 2022 → 15 Juli 2022 https://acmin.agh.edu.pl/en/febip2022/

Konferenz

Konferenz	8th FEBIP Workshop of the Focused-Electron-Beam-Induced-Processing
Kurztitel	FEBIP 2022
Land/Gebiet	Polen
Ort	Krakow
Zeitraum	12/07/22 → 15/07/22
Internetadresse	https://acmin.agh.edu.pl/en/febip2022/

ASJC Scopus subject areas

Allgemeine Materialwissenschaften

Fields of Expertise

Advanced Materials Science

Treatment code (Nähere Zuordnung)

Basic - Fundamental (Grundlagenforschung)

Dieses zitieren

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abstract = "Plasmonic nanoparticles have unique optical properties due to their size and shape, and are increasingly being incorporatedinto commercial products and technologies, ranging from photovoltaics to biological and chemical sensors[1]. The control on shifting and tuning of the plasmonic response depend highly on the abilities to control the finalshape of the nano-particles in every detail. Expansion towards the third dimension in cotnrast to traditionally planarplasmonic structures crucially enhances the design possibilities. 3-D nano-printing via focused electron beam induceddeposition (3D-FEBID) allows flexible fabrication with nanoscale precision [2]. In addition, it has been proven to be aversatile fabrication method to achieve on-demand design of plasmonically active nanostructures [3-6].",

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N2 - Plasmonic nanoparticles have unique optical properties due to their size and shape, and are increasingly being incorporatedinto commercial products and technologies, ranging from photovoltaics to biological and chemical sensors[1]. The control on shifting and tuning of the plasmonic response depend highly on the abilities to control the finalshape of the nano-particles in every detail. Expansion towards the third dimension in cotnrast to traditionally planarplasmonic structures crucially enhances the design possibilities. 3-D nano-printing via focused electron beam induceddeposition (3D-FEBID) allows flexible fabrication with nanoscale precision [2]. In addition, it has been proven to be aversatile fabrication method to achieve on-demand design of plasmonically active nanostructures [3-6].

AB - Plasmonic nanoparticles have unique optical properties due to their size and shape, and are increasingly being incorporatedinto commercial products and technologies, ranging from photovoltaics to biological and chemical sensors[1]. The control on shifting and tuning of the plasmonic response depend highly on the abilities to control the finalshape of the nano-particles in every detail. Expansion towards the third dimension in cotnrast to traditionally planarplasmonic structures crucially enhances the design possibilities. 3-D nano-printing via focused electron beam induceddeposition (3D-FEBID) allows flexible fabrication with nanoscale precision [2]. In addition, it has been proven to be aversatile fabrication method to achieve on-demand design of plasmonically active nanostructures [3-6].

M3 - Abstract

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T2 - 8th FEBIP Workshop of the Focused-Electron-Beam-Induced-Processing

Y2 - 12 July 2022 through 15 July 2022

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