Corrosion behaviors of materials in aluminum chloride-1-ethyl-3- methylimidazolium chloride ionic liquid

Chien Hsiung Tseng; Jeng-Kuei Chang; Jhen Rong Chen; W. T. Tsai; Ming Jay Deng; I. Wen Sun

doi:10.1016/j.elecom.2010.05.036

Corrosion behaviors of materials in aluminum chloride-1-ethyl-3- methylimidazolium chloride ionic liquid

Chien Hsiung Tseng, Jeng-Kuei Chang^*, Jhen Rong Chen, W. T. Tsai, Ming Jay Deng, I. Wen Sun

^*Corresponding author for this work

Department of Materials Science and Engineering

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

53 Scopus citations

Abstract

The corrosion properties of carbon steel (CS), 304 stainless steel (304 SS), and pure titanium (Ti) are first studied in aluminum chloride-1-ethyl-3- methylimidazolium chloride ionic liquid (IL). An active-to-passive transition behavior was clearly observed for CS. The 304 SS exhibited the best stability among the materials; no considerable corrosion was recognized even in this high-chloride environment. In contrast, although Ti resists corrosion in ambient environments, it was not passivated in the IL and became severely corroded under an anodic applied potential. The material corrosion behaviors and mechanisms in the non-aqueous, low-oxygen, and high-halogen-containing IL are completely different from those in traditional aqueous solutions.

Original language	English
Pages (from-to)	1091-1094
Number of pages	4
Journal	Electrochemistry Communications
Volume	12
Issue number	8
DOIs	https://doi.org/10.1016/j.elecom.2010.05.036
State	Published - 1 Aug 2010

Keywords

Carbon steel
Corrosion behavior
Ionic liquid
Stainless steel
Titanium

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10.1016/j.elecom.2010.05.036

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title = "Corrosion behaviors of materials in aluminum chloride-1-ethyl-3- methylimidazolium chloride ionic liquid",

abstract = "The corrosion properties of carbon steel (CS), 304 stainless steel (304 SS), and pure titanium (Ti) are first studied in aluminum chloride-1-ethyl-3- methylimidazolium chloride ionic liquid (IL). An active-to-passive transition behavior was clearly observed for CS. The 304 SS exhibited the best stability among the materials; no considerable corrosion was recognized even in this high-chloride environment. In contrast, although Ti resists corrosion in ambient environments, it was not passivated in the IL and became severely corroded under an anodic applied potential. The material corrosion behaviors and mechanisms in the non-aqueous, low-oxygen, and high-halogen-containing IL are completely different from those in traditional aqueous solutions.",

keywords = "Carbon steel, Corrosion behavior, Ionic liquid, Stainless steel, Titanium",

author = "Tseng, {Chien Hsiung} and Jeng-Kuei Chang and Chen, {Jhen Rong} and Tsai, {W. T.} and Deng, {Ming Jay} and Sun, {I. Wen}",

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T1 - Corrosion behaviors of materials in aluminum chloride-1-ethyl-3- methylimidazolium chloride ionic liquid

AU - Tseng, Chien Hsiung

AU - Chang, Jeng-Kuei

AU - Chen, Jhen Rong

AU - Tsai, W. T.

AU - Deng, Ming Jay

AU - Sun, I. Wen

PY - 2010/8/1

Y1 - 2010/8/1

N2 - The corrosion properties of carbon steel (CS), 304 stainless steel (304 SS), and pure titanium (Ti) are first studied in aluminum chloride-1-ethyl-3- methylimidazolium chloride ionic liquid (IL). An active-to-passive transition behavior was clearly observed for CS. The 304 SS exhibited the best stability among the materials; no considerable corrosion was recognized even in this high-chloride environment. In contrast, although Ti resists corrosion in ambient environments, it was not passivated in the IL and became severely corroded under an anodic applied potential. The material corrosion behaviors and mechanisms in the non-aqueous, low-oxygen, and high-halogen-containing IL are completely different from those in traditional aqueous solutions.

AB - The corrosion properties of carbon steel (CS), 304 stainless steel (304 SS), and pure titanium (Ti) are first studied in aluminum chloride-1-ethyl-3- methylimidazolium chloride ionic liquid (IL). An active-to-passive transition behavior was clearly observed for CS. The 304 SS exhibited the best stability among the materials; no considerable corrosion was recognized even in this high-chloride environment. In contrast, although Ti resists corrosion in ambient environments, it was not passivated in the IL and became severely corroded under an anodic applied potential. The material corrosion behaviors and mechanisms in the non-aqueous, low-oxygen, and high-halogen-containing IL are completely different from those in traditional aqueous solutions.

KW - Carbon steel

KW - Corrosion behavior

KW - Ionic liquid

KW - Stainless steel

KW - Titanium

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DO - 10.1016/j.elecom.2010.05.036

M3 - Article

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JO - Electrochemistry Communications

JF - Electrochemistry Communications

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ER -

Corrosion behaviors of materials in aluminum chloride-1-ethyl-3- methylimidazolium chloride ionic liquid

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Keywords

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