Electrodeposition of Cobalt in an Ionic Liquid Electrolyte at Ambient Temperature

The codeposition behavior of Co and Zn in an ionic liquid was investigated. In the cyclic voltammogram of a ZnCl2‐EMIC‐CoCl2 ionic liquid, three reduction peaks appeared at 250 mV (peak c1), 50 mV (peak c2) and −200 mV (peak c3) (vs. Zn2+/Zn). According to the component analysis by means of EDS (ene...

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Published in	Chinese journal of chemistry Vol. 26; no. 7; pp. 1219 - 1224
Main Authors	AN, Mao-Zhong, YANG, Pei-Xia, SU, Cai-Na, NISHIKATA, Atshushi, TSURU, Tooru
Format	Journal Article
Language	English
Published	Weinheim WILEY-VCH Verlag 01.07.2008 WILEY‐VCH Verlag
Subjects	cobalt deposition mechanism electrodeposition ionic liquid
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Abstract	The codeposition behavior of Co and Zn in an ionic liquid was investigated. In the cyclic voltammogram of a ZnCl2‐EMIC‐CoCl2 ionic liquid, three reduction peaks appeared at 250 mV (peak c1), 50 mV (peak c2) and −200 mV (peak c3) (vs. Zn2+/Zn). According to the component analysis by means of EDS (energy disperse spectroscopy), peaks c1, c2 and c3 correspond to the electrodeposition of Co, the underpotential deposition of Zn on the electrodeposited Co coating and the codeposition of Co‐Zn alloy, respectively. The potentiostatic deposition showed that the electrodeposited coating of high‐pure Co was obtained when the cathodic potential was controlled at 100 mV (vs. Zn/Zn2+). The electrodeposition was carried out at a galvanostatic mode, and when the current density was controlled at about 85 µA/cm2, the electrodeposited coating of high‐pure Co was also obtained. Studies on the mechanism of codeposition of Co and Zn showed that the electrodeposition process of Co and the underpotential deposition process of Zn on the electrodeposited Co coating were all diffusion controlled.
AbstractList	Abstract The codeposition behavior of Co and Zn in an ionic liquid was investigated. In the cyclic voltammogram of a ZnCl 2 ‐EMIC‐CoCl 2 ionic liquid, three reduction peaks appeared at 250 mV (peak c 1 ), 50 mV (peak c 2 ) and −200 mV (peak c 3 ) (vs. Zn 2+ /Zn). According to the component analysis by means of EDS (energy disperse spectroscopy), peaks c 1 , c 2 and c 3 correspond to the electrodeposition of Co, the underpotential deposition of Zn on the electrodeposited Co coating and the codeposition of Co‐Zn alloy, respectively. The potentiostatic deposition showed that the electrodeposited coating of high‐pure Co was obtained when the cathodic potential was controlled at 100 mV (vs. Zn/Zn 2+ ). The electrodeposition was carried out at a galvanostatic mode, and when the current density was controlled at about 85 µA/cm 2 , the electrodeposited coating of high‐pure Co was also obtained. Studies on the mechanism of codeposition of Co and Zn showed that the electrodeposition process of Co and the underpotential deposition process of Zn on the electrodeposited Co coating were all diffusion controlled. The codeposition behavior of Co and Zn in an ionic liquid was investigated. In the cyclic voltammogram of a ZnCl2‐EMIC‐CoCl2 ionic liquid, three reduction peaks appeared at 250 mV (peak c1), 50 mV (peak c2) and −200 mV (peak c3) (vs. Zn2+/Zn). According to the component analysis by means of EDS (energy disperse spectroscopy), peaks c1, c2 and c3 correspond to the electrodeposition of Co, the underpotential deposition of Zn on the electrodeposited Co coating and the codeposition of Co‐Zn alloy, respectively. The potentiostatic deposition showed that the electrodeposited coating of high‐pure Co was obtained when the cathodic potential was controlled at 100 mV (vs. Zn/Zn2+). The electrodeposition was carried out at a galvanostatic mode, and when the current density was controlled at about 85 µA/cm2, the electrodeposited coating of high‐pure Co was also obtained. Studies on the mechanism of codeposition of Co and Zn showed that the electrodeposition process of Co and the underpotential deposition process of Zn on the electrodeposited Co coating were all diffusion controlled.
Author	TSURU, Tooru AN, Mao-Zhong SU, Cai-Na YANG, Pei-Xia NISHIKATA, Atshushi
Author_xml	– sequence: 1 givenname: Mao-Zhong surname: AN fullname: AN, Mao-Zhong email: mzan@hit.edu.cn organization: E-mail: mzan@hit.edu.cn – sequence: 2 givenname: Pei-Xia surname: YANG fullname: YANG, Pei-Xia organization: Department of Applied Chemistry, Harbin Institute of Technology, Harbin, Heilongjiang 15000, China – sequence: 3 givenname: Cai-Na surname: SU fullname: SU, Cai-Na organization: Department of Applied Chemistry, Harbin Institute of Technology, Harbin, Heilongjiang 15000, China – sequence: 4 givenname: Atshushi surname: NISHIKATA fullname: NISHIKATA, Atshushi organization: Department of Metallurgy and Ceramics Science, Tokyo Institute of Technology, Tokyo, Japan – sequence: 5 givenname: Tooru surname: TSURU fullname: TSURU, Tooru organization: Department of Metallurgy and Ceramics Science, Tokyo Institute of Technology, Tokyo, Japan
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Cites_doi	10.1016/S0257-8972(03)00183-X 10.5796/electrochemistry.70.671 10.1016/j.ssc.2004.03.013 10.1016/S0022-0728(01)00607-6 10.1149/1.1467941 10.1016/j.jmmm.2004.10.086 10.1149/1.1393905 10.1063/1.1399006 10.1016/j.physe.2004.01.011 10.1109/TMAG.2004.832244 10.1016/S0013-4686(00)00703-9 10.1016/S0013-4686(01)00586-2 10.1016/S0040-6090(01)01674-1 10.1063/1.373137 10.1021/jp013115d
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Snippet	The codeposition behavior of Co and Zn in an ionic liquid was investigated. In the cyclic voltammogram of a ZnCl2‐EMIC‐CoCl2 ionic liquid, three reduction... Abstract The codeposition behavior of Co and Zn in an ionic liquid was investigated. In the cyclic voltammogram of a ZnCl 2 ‐EMIC‐CoCl 2 ionic liquid, three...
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SubjectTerms	cobalt deposition mechanism electrodeposition ionic liquid
Title	Electrodeposition of Cobalt in an Ionic Liquid Electrolyte at Ambient Temperature
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