Antireflective conducting nanostructures with an atomic layer deposited an AlZnO layer on a transparent substrate

Hyun Woo Park; Seungmuk Ji; Diptya Suci Herdini; Hyuneui Lim; Jin Seong Park; Kwun Bum Chung

doi:10.1016/j.apsusc.2015.09.256

Antireflective conducting nanostructures with an atomic layer deposited an AlZnO layer on a transparent substrate

Hyun Woo Park, Seungmuk Ji, Diptya Suci Herdini, Hyuneui Lim, Jin Seong Park, Kwun Bum Chung

Department of Physics

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

5 Scopus citations

Abstract

The antireflective conducting nanostructures on a transparent substrate were shown to have enhanced optical and electrical properties via colloidal lithography and atomic layer deposition. The conformal AlZnO layer on a transparent nanostructured substrate exhibited 5.52 × 10 ^-4 Ω cm in resistivity and 88% in average visible transmittance, both of which were superior to those of a flat transparent conducting substrate. The improvement of transparency was explained by the gradual changes of the refractive index in the film depth direction. The decrease in electrical resistivity is strongly correlated to the increased surface area with the nanostructure and the change of chemical bonding states.

Original language	English
Pages (from-to)	2385-2390
Number of pages	6
Journal	Applied Surface Science
Volume	357
DOIs	https://doi.org/10.1016/j.apsusc.2015.09.256
State	Published - 1 Dec 2015

Keywords

Al doped ZnO
Anti-reflection coating
Atomic layer deposition
Transparent conducting oxide

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10.1016/j.apsusc.2015.09.256

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title = "Antireflective conducting nanostructures with an atomic layer deposited an AlZnO layer on a transparent substrate",

abstract = " The antireflective conducting nanostructures on a transparent substrate were shown to have enhanced optical and electrical properties via colloidal lithography and atomic layer deposition. The conformal AlZnO layer on a transparent nanostructured substrate exhibited 5.52 × 10 -4 Ω cm in resistivity and 88% in average visible transmittance, both of which were superior to those of a flat transparent conducting substrate. The improvement of transparency was explained by the gradual changes of the refractive index in the film depth direction. The decrease in electrical resistivity is strongly correlated to the increased surface area with the nanostructure and the change of chemical bonding states.",

keywords = "Al doped ZnO, Anti-reflection coating, Atomic layer deposition, Transparent conducting oxide",

author = "Park, {Hyun Woo} and Seungmuk Ji and Herdini, {Diptya Suci} and Hyuneui Lim and Park, {Jin Seong} and Chung, {Kwun Bum}",

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doi = "10.1016/j.apsusc.2015.09.256",

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T1 - Antireflective conducting nanostructures with an atomic layer deposited an AlZnO layer on a transparent substrate

AU - Park, Hyun Woo

AU - Ji, Seungmuk

AU - Herdini, Diptya Suci

AU - Lim, Hyuneui

AU - Park, Jin Seong

AU - Chung, Kwun Bum

PY - 2015/12/1

Y1 - 2015/12/1

N2 - The antireflective conducting nanostructures on a transparent substrate were shown to have enhanced optical and electrical properties via colloidal lithography and atomic layer deposition. The conformal AlZnO layer on a transparent nanostructured substrate exhibited 5.52 × 10 -4 Ω cm in resistivity and 88% in average visible transmittance, both of which were superior to those of a flat transparent conducting substrate. The improvement of transparency was explained by the gradual changes of the refractive index in the film depth direction. The decrease in electrical resistivity is strongly correlated to the increased surface area with the nanostructure and the change of chemical bonding states.

AB - The antireflective conducting nanostructures on a transparent substrate were shown to have enhanced optical and electrical properties via colloidal lithography and atomic layer deposition. The conformal AlZnO layer on a transparent nanostructured substrate exhibited 5.52 × 10 -4 Ω cm in resistivity and 88% in average visible transmittance, both of which were superior to those of a flat transparent conducting substrate. The improvement of transparency was explained by the gradual changes of the refractive index in the film depth direction. The decrease in electrical resistivity is strongly correlated to the increased surface area with the nanostructure and the change of chemical bonding states.

KW - Al doped ZnO

KW - Anti-reflection coating

KW - Atomic layer deposition

KW - Transparent conducting oxide

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DO - 10.1016/j.apsusc.2015.09.256

M3 - Article

AN - SCOPUS:84951858688

SN - 0169-4332

VL - 357

SP - 2385

EP - 2390

JO - Applied Surface Science

JF - Applied Surface Science

ER -

Antireflective conducting nanostructures with an atomic layer deposited an AlZnO layer on a transparent substrate

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Keywords

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