Dae Seong Kim scite author profile

The development of nanodevices that exploit the unique properties of nanoparticles will require high-speed methods for patterning surfaces with nanoparticles over large areas and with high resolution. Moreover, the technique will need to work with both conducting and non-conducting surfaces. Here we report an ion-induced parallel-focusing approach that satisfies all requirements. Charged monodisperse aerosol nanoparticles are deposited onto a surface patterned with a photoresist while ions of the same polarity are introduced into the deposition chamber in the presence of an applied electric field. The ions accumulate on the photoresist, modifying the applied field to produce nanoscopic electrostatic lenses that focus the nanoparticles onto the exposed parts of the surface. We have demonstrated that the technique could produce high-resolution patterns at high speed on both conducting (p-type silicon) and non-conducting (silica) surfaces. Moreover, the feature sizes in the nanoparticle patterns were significantly smaller than those in the original photoresist pattern.

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An experimental study on the pressure drop of nanofluids containing carbon nanotubes in a horizontal tube

Heo

Lee

et al. 2007

International Journal of Heat and Mass Transfer

126

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A method for enhanced charging of nanoparticles via condensation magnification

Suh¹,

Han²,

Kim³

et al. 2005

Journal of Aerosol Science

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Controlled electrostatic focusing of charged aerosol nanoparticles via an electrified mask

Choi

Kang

Jung

et al. 2015

Journal of Aerosol Science

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Dae Seong Kim

Parallel patterning of nanoparticles via electrodynamic focusing of charged aerosols

An experimental study on the pressure drop of nanofluids containing carbon nanotubes in a horizontal tube

A method for enhanced charging of nanoparticles via condensation magnification

Controlled electrostatic focusing of charged aerosol nanoparticles via an electrified mask

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