Formation of aluminum oxide nanostructures via anodization of Al3104 alloy and their wettability behavior for self-cleaning application

Jaewon Lee; Seong Yun Jung; Vijay S. Kumbhar; Sunghyun Uhm; Hyun Joon Kim; Kiyoung Lee

doi:10.1016/j.cattod.2019.04.062

Formation of aluminum oxide nanostructures via anodization of Al3104 alloy and their wettability behavior for self-cleaning application

Jaewon Lee, Seong Yun Jung, Vijay S. Kumbhar, Sunghyun Uhm, Hyun Joon Kim, Kiyoung Lee

Research output: Contribution to journal › Review article › peer-review

12 Scopus citations

Abstract

The Al 3104 alloy is widely used in the industrial field for building exteriors, heat blockers, and aluminum cans. These products are often exposed to long-term pollution, resulting in economic loss due to corrosion and the removal of pollutants. To solve these problems, self-cleaning of metal surfaces has been actively studied. Self-cleaning can be achieved by modifying hydrophilic or hydrophobic treatments to control the surface energy and surface structure. In the present study, the surface structure was changed through anodization technique. We fabricated three different structures of the top surface: nanotubes, porous, and nanopetals. The various nanostructures exhibited differences in wettability. Under the optimum conditions, the aluminum oxide layer exhibited hydrophilicity, which is a significant advantage for self-cleaning.

Original language	English
Pages (from-to)	50-56
Number of pages	7
Journal	Catalysis Today
Volume	359
DOIs	https://doi.org/10.1016/j.cattod.2019.04.062
State	Published - 1 Jan 2021

Keywords

Aluminum alloy
Anodization
Hydrophilic
KHPO/glycerol electrolyte
Wettability

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10.1016/j.cattod.2019.04.062

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title = "Formation of aluminum oxide nanostructures via anodization of Al3104 alloy and their wettability behavior for self-cleaning application",

abstract = "The Al 3104 alloy is widely used in the industrial field for building exteriors, heat blockers, and aluminum cans. These products are often exposed to long-term pollution, resulting in economic loss due to corrosion and the removal of pollutants. To solve these problems, self-cleaning of metal surfaces has been actively studied. Self-cleaning can be achieved by modifying hydrophilic or hydrophobic treatments to control the surface energy and surface structure. In the present study, the surface structure was changed through anodization technique. We fabricated three different structures of the top surface: nanotubes, porous, and nanopetals. The various nanostructures exhibited differences in wettability. Under the optimum conditions, the aluminum oxide layer exhibited hydrophilicity, which is a significant advantage for self-cleaning.",

keywords = "Aluminum alloy, Anodization, Hydrophilic, KHPO/glycerol electrolyte, Wettability",

author = "Jaewon Lee and Jung, {Seong Yun} and Kumbhar, {Vijay S.} and Sunghyun Uhm and Kim, {Hyun Joon} and Kiyoung Lee",

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T1 - Formation of aluminum oxide nanostructures via anodization of Al3104 alloy and their wettability behavior for self-cleaning application

AU - Lee, Jaewon

AU - Jung, Seong Yun

AU - Kumbhar, Vijay S.

AU - Uhm, Sunghyun

AU - Kim, Hyun Joon

AU - Lee, Kiyoung

PY - 2021/1/1

Y1 - 2021/1/1

N2 - The Al 3104 alloy is widely used in the industrial field for building exteriors, heat blockers, and aluminum cans. These products are often exposed to long-term pollution, resulting in economic loss due to corrosion and the removal of pollutants. To solve these problems, self-cleaning of metal surfaces has been actively studied. Self-cleaning can be achieved by modifying hydrophilic or hydrophobic treatments to control the surface energy and surface structure. In the present study, the surface structure was changed through anodization technique. We fabricated three different structures of the top surface: nanotubes, porous, and nanopetals. The various nanostructures exhibited differences in wettability. Under the optimum conditions, the aluminum oxide layer exhibited hydrophilicity, which is a significant advantage for self-cleaning.

AB - The Al 3104 alloy is widely used in the industrial field for building exteriors, heat blockers, and aluminum cans. These products are often exposed to long-term pollution, resulting in economic loss due to corrosion and the removal of pollutants. To solve these problems, self-cleaning of metal surfaces has been actively studied. Self-cleaning can be achieved by modifying hydrophilic or hydrophobic treatments to control the surface energy and surface structure. In the present study, the surface structure was changed through anodization technique. We fabricated three different structures of the top surface: nanotubes, porous, and nanopetals. The various nanostructures exhibited differences in wettability. Under the optimum conditions, the aluminum oxide layer exhibited hydrophilicity, which is a significant advantage for self-cleaning.

KW - Aluminum alloy

KW - Anodization

KW - Hydrophilic

KW - KHPO/glycerol electrolyte

KW - Wettability

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U2 - 10.1016/j.cattod.2019.04.062

DO - 10.1016/j.cattod.2019.04.062

M3 - Review article

AN - SCOPUS:85065435068

SN - 0920-5861

VL - 359

SP - 50

EP - 56

JO - Catalysis Today

JF - Catalysis Today

ER -

Formation of aluminum oxide nanostructures via anodization of Al3104 alloy and their wettability behavior for self-cleaning application

Abstract

Keywords

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