Electrohydrodynamic printing of silver nanoparticles by using a focused nanocolloid jet

Dae Young Lee; Yun Soo Shin; Sung Eun Park; Tae U. Yu; Jungho Hwang

doi:10.1063/1.2645078

Electrohydrodynamic printing of silver nanoparticles by using a focused nanocolloid jet

Dae Young Lee, Yun Soo Shin, Sung Eun Park, Tae U. Yu, Jungho Hwang

Department of Mechanical Engineering

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

122 Citations (Scopus)

Abstract

As a direct write technology, the electrohydrodynamic printing of silver nanoparticles by using a focused nanocolloid jet is introduced. In this letter, two categorized types of examples of two-dimensional patterning were printed by using the electrohydrodynamic printing method. A spiral-type inductor was printed to demonstrate the feasibility of the electrohydrodynamic printing as a fabrication process. The printed spiral inductor produced 9.45 μH and exhibited approximately five times larger resistivity (9.5 μ cm) than that of bulk silver after the sintering process. Then, complex geometries having square- and round-shape patterns were also printed.

Original language	English
Article number	081905
Journal	Applied Physics Letters
Volume	90
Issue number	8
DOIs	https://doi.org/10.1063/1.2645078
Publication status	Published - 2007

All Science Journal Classification (ASJC) codes

Physics and Astronomy (miscellaneous)

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10.1063/1.2645078

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abstract = "As a direct write technology, the electrohydrodynamic printing of silver nanoparticles by using a focused nanocolloid jet is introduced. In this letter, two categorized types of examples of two-dimensional patterning were printed by using the electrohydrodynamic printing method. A spiral-type inductor was printed to demonstrate the feasibility of the electrohydrodynamic printing as a fabrication process. The printed spiral inductor produced 9.45 μH and exhibited approximately five times larger resistivity (9.5 μ cm) than that of bulk silver after the sintering process. Then, complex geometries having square- and round-shape patterns were also printed.",

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AB - As a direct write technology, the electrohydrodynamic printing of silver nanoparticles by using a focused nanocolloid jet is introduced. In this letter, two categorized types of examples of two-dimensional patterning were printed by using the electrohydrodynamic printing method. A spiral-type inductor was printed to demonstrate the feasibility of the electrohydrodynamic printing as a fabrication process. The printed spiral inductor produced 9.45 μH and exhibited approximately five times larger resistivity (9.5 μ cm) than that of bulk silver after the sintering process. Then, complex geometries having square- and round-shape patterns were also printed.

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Electrohydrodynamic printing of silver nanoparticles by using a focused nanocolloid jet

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