Design of electrohydrodynamic lens for stabilizing of eletrohydrodynamic jet printing

Sung Eun Park; Dae Young Lee; Sang Yoon Kim; Yoon Soo Shin; Tae U. Yu; Jungho Hwang

doi:10.1088/1742-6596/142/1/012053

Design of electrohydrodynamic lens for stabilizing of eletrohydrodynamic jet printing

Sung Eun Park, Dae Young Lee, Sang Yoon Kim, Yoon Soo Shin, Tae U. Yu, Jungho Hwang

Department of Mechanical Engineering

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

6 Citations (Scopus)

Abstract

The generation of micro patterns from conductive material suspensions is gaining significant interests for its usages in the fabrication of flexible display elements and flexible printed circuit boards. In this paper, we presented the results of line patterns of silver nanoparticles obtained by using various types of focusing lenses for electrohydrodynamic jet printing. The pattern widths were measured as 80∼100 μm when the electrohydrodynamic lens having a cone-type inner hole and a cone-type outer wall was used. Electric field strengths were calculated by a commercial solver packages for the four types of electrohydrodynamic lenses. A lens having a cone-type inner hole and a cone-type outer wall of thinner thickness was found to be the best design.

Original language	English
Article number	012053
Journal	Journal of Physics: Conference Series
Volume	142
DOIs	https://doi.org/10.1088/1742-6596/142/1/012053
Publication status	Published - 2008

All Science Journal Classification (ASJC) codes

Physics and Astronomy(all)

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10.1088/1742-6596/142/1/012053

Cite this

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abstract = "The generation of micro patterns from conductive material suspensions is gaining significant interests for its usages in the fabrication of flexible display elements and flexible printed circuit boards. In this paper, we presented the results of line patterns of silver nanoparticles obtained by using various types of focusing lenses for electrohydrodynamic jet printing. The pattern widths were measured as 80∼100 μm when the electrohydrodynamic lens having a cone-type inner hole and a cone-type outer wall was used. Electric field strengths were calculated by a commercial solver packages for the four types of electrohydrodynamic lenses. A lens having a cone-type inner hole and a cone-type outer wall of thinner thickness was found to be the best design.",

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AB - The generation of micro patterns from conductive material suspensions is gaining significant interests for its usages in the fabrication of flexible display elements and flexible printed circuit boards. In this paper, we presented the results of line patterns of silver nanoparticles obtained by using various types of focusing lenses for electrohydrodynamic jet printing. The pattern widths were measured as 80∼100 μm when the electrohydrodynamic lens having a cone-type inner hole and a cone-type outer wall was used. Electric field strengths were calculated by a commercial solver packages for the four types of electrohydrodynamic lenses. A lens having a cone-type inner hole and a cone-type outer wall of thinner thickness was found to be the best design.

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Design of electrohydrodynamic lens for stabilizing of eletrohydrodynamic jet printing

Abstract

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