Fabrication and characterization of RF nanoantenna on a nanoliter-scale 3D microcontainer

Jung Rae Park; Daniel S. Choi; D. H. Gracias; T. G. Leong; N. Presser; G. W. Stupian; M. S. Leung; Young Keun Kim

doi:10.1088/0957-4484/22/45/455303

Fabrication and characterization of RF nanoantenna on a nanoliter-scale 3D microcontainer

Jung Rae Park^*
, Daniel S. Choi
, D. H. Gracias
, T. G. Leong
, N. Presser
, G. W. Stupian
, M. S. Leung
, Young Keun Kim

^*Corresponding author for this work

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

5 Citations (Scopus)

Abstract

We report the design and fabrication of a nanoantenna structure on the surface of a 3D nanoliter-scale container for the development of communicable nanoliter-scale chemical delivery systems. The porous container was self-assembled, after which the nanoantenna was fabricated on the top of the microcontainer using focused ion beam (FIB) ion-induced metal deposition. The nanoantenna was structured as a rectangular metal coil composed of platinum (Pt) nanowires (70nm in width). The response of the nanoantenna structure was simulated using finite element software and showed a strong resonant feature at 10.8GHz, which was confirmed by high frequency measurements.

Original language	English
Article number	455303
Journal	Nanotechnology
Volume	22
Issue number	45
DOIs	https://doi.org/10.1088/0957-4484/22/45/455303
Publication status	Published - 2011 Nov 11

ASJC Scopus subject areas

Bioengineering
General Chemistry
General Materials Science
Mechanics of Materials
Mechanical Engineering
Electrical and Electronic Engineering

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title = "Fabrication and characterization of RF nanoantenna on a nanoliter-scale 3D microcontainer",

abstract = "We report the design and fabrication of a nanoantenna structure on the surface of a 3D nanoliter-scale container for the development of communicable nanoliter-scale chemical delivery systems. The porous container was self-assembled, after which the nanoantenna was fabricated on the top of the microcontainer using focused ion beam (FIB) ion-induced metal deposition. The nanoantenna was structured as a rectangular metal coil composed of platinum (Pt) nanowires (70nm in width). The response of the nanoantenna structure was simulated using finite element software and showed a strong resonant feature at 10.8GHz, which was confirmed by high frequency measurements.",

author = "Park, \{Jung Rae\} and Choi, \{Daniel S.\} and Gracias, \{D. H.\} and Leong, \{T. G.\} and N. Presser and Stupian, \{G. W.\} and Leung, \{M. S.\} and Kim, \{Young Keun\}",

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doi = "10.1088/0957-4484/22/45/455303",

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T1 - Fabrication and characterization of RF nanoantenna on a nanoliter-scale 3D microcontainer

AU - Park, Jung Rae

AU - Choi, Daniel S.

AU - Gracias, D. H.

AU - Leong, T. G.

AU - Presser, N.

AU - Stupian, G. W.

AU - Leung, M. S.

AU - Kim, Young Keun

PY - 2011/11/11

Y1 - 2011/11/11

N2 - We report the design and fabrication of a nanoantenna structure on the surface of a 3D nanoliter-scale container for the development of communicable nanoliter-scale chemical delivery systems. The porous container was self-assembled, after which the nanoantenna was fabricated on the top of the microcontainer using focused ion beam (FIB) ion-induced metal deposition. The nanoantenna was structured as a rectangular metal coil composed of platinum (Pt) nanowires (70nm in width). The response of the nanoantenna structure was simulated using finite element software and showed a strong resonant feature at 10.8GHz, which was confirmed by high frequency measurements.

AB - We report the design and fabrication of a nanoantenna structure on the surface of a 3D nanoliter-scale container for the development of communicable nanoliter-scale chemical delivery systems. The porous container was self-assembled, after which the nanoantenna was fabricated on the top of the microcontainer using focused ion beam (FIB) ion-induced metal deposition. The nanoantenna was structured as a rectangular metal coil composed of platinum (Pt) nanowires (70nm in width). The response of the nanoantenna structure was simulated using finite element software and showed a strong resonant feature at 10.8GHz, which was confirmed by high frequency measurements.

UR - https://www.scopus.com/pages/publications/80054962892

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M3 - Article

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AN - SCOPUS:80054962892

SN - 0957-4484

VL - 22

JO - Nanotechnology

JF - Nanotechnology

IS - 45

M1 - 455303

ER -

Fabrication and characterization of RF nanoantenna on a nanoliter-scale 3D microcontainer

Abstract

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