Formation of porous oxide layer on stainless steel by anodization in hot glycerol electrolyte

Jaewon Lee; Hyun Kuk Choi; Moon Gab Kim; Yong Sei Lee; Kiyoung Lee

doi:10.14478/ace.2020.1015

Formation of porous oxide layer on stainless steel by anodization in hot glycerol electrolyte

Jaewon Lee, Hyun Kuk Choi, Moon Gab Kim, Yong Sei Lee, Kiyoung Lee

Kyungpook National University

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

1 Scopus citations

Abstract

In this study, nanoporous iron oxide layers were fabricated by the anodization of 304 series stainless steel. K₂HPO₄/glycerol solution was used as an electrolyte for anodization. We investigated the anodization behavior according to various parameters such as electrolyte concentration, reaction temperature, applied voltage, and reaction time. As a result of anodization, we con-firmed that the anodic growth rate of oxide layer on 304 series stainless steel increased with increasing the electrolyte temperature and applied potential. In order to form well-ordered porous nanostructures, the electrolyte temperature was at 160 ℃, and the applied potential was at 30 V in 10 wt% K₂HPO₄/glycerol electrolyte.

Original language	English
Pages (from-to)	215-219
Number of pages	5
Journal	Applied Chemistry for Engineering
Volume	31
Issue number	2
DOIs	https://doi.org/10.14478/ace.2020.1015
State	Published - 2020
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2020, Korean Society of Industrial Engineering Chemistry. All rights reserved.

Keywords

Anodization
Hot glycerol electrolyte
KHPO
Porous structure
Stainless steel

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10.14478/ace.2020.1015

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abstract = "In this study, nanoporous iron oxide layers were fabricated by the anodization of 304 series stainless steel. K2HPO4/glycerol solution was used as an electrolyte for anodization. We investigated the anodization behavior according to various parameters such as electrolyte concentration, reaction temperature, applied voltage, and reaction time. As a result of anodization, we con-firmed that the anodic growth rate of oxide layer on 304 series stainless steel increased with increasing the electrolyte temperature and applied potential. In order to form well-ordered porous nanostructures, the electrolyte temperature was at 160 ℃, and the applied potential was at 30 V in 10 wt% K2HPO4/glycerol electrolyte.",

keywords = "Anodization, Hot glycerol electrolyte, KHPO, Porous structure, Stainless steel",

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T1 - Formation of porous oxide layer on stainless steel by anodization in hot glycerol electrolyte

AU - Lee, Jaewon

AU - Choi, Hyun Kuk

AU - Kim, Moon Gab

AU - Lee, Yong Sei

AU - Lee, Kiyoung

PY - 2020

Y1 - 2020

N2 - In this study, nanoporous iron oxide layers were fabricated by the anodization of 304 series stainless steel. K2HPO4/glycerol solution was used as an electrolyte for anodization. We investigated the anodization behavior according to various parameters such as electrolyte concentration, reaction temperature, applied voltage, and reaction time. As a result of anodization, we con-firmed that the anodic growth rate of oxide layer on 304 series stainless steel increased with increasing the electrolyte temperature and applied potential. In order to form well-ordered porous nanostructures, the electrolyte temperature was at 160 ℃, and the applied potential was at 30 V in 10 wt% K2HPO4/glycerol electrolyte.

AB - In this study, nanoporous iron oxide layers were fabricated by the anodization of 304 series stainless steel. K2HPO4/glycerol solution was used as an electrolyte for anodization. We investigated the anodization behavior according to various parameters such as electrolyte concentration, reaction temperature, applied voltage, and reaction time. As a result of anodization, we con-firmed that the anodic growth rate of oxide layer on 304 series stainless steel increased with increasing the electrolyte temperature and applied potential. In order to form well-ordered porous nanostructures, the electrolyte temperature was at 160 ℃, and the applied potential was at 30 V in 10 wt% K2HPO4/glycerol electrolyte.

KW - Anodization

KW - Hot glycerol electrolyte

KW - KHPO

KW - Porous structure

KW - Stainless steel

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DO - 10.14478/ace.2020.1015

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EP - 219

JO - Applied Chemistry for Engineering

JF - Applied Chemistry for Engineering

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Formation of porous oxide layer on stainless steel by anodization in hot glycerol electrolyte

Abstract

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