Plastic deformation affecting anodic dissolution in electrochemical migration

Yasuhiro Kimura; Shoya Wakayama; Masumi Saka

doi:10.1557/mrc.2019.68

Plastic deformation affecting anodic dissolution in electrochemical migration

Yasuhiro Kimura, Shoya Wakayama, Masumi Saka

ENG - Finemechanics

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

Abstract

This study investigated the effect of plastic deformation on anodic dissolution in electrochemical migration (ECM) through the growth of deposits. The morphology of deposits synthesized by ECM was analyzed using scanning electron microscopy, where sponge-shaped deposits were observed on the cathode electrode. The mechanism of anodic dissolution was examined by experimentally measuring the variation in the mass of electrodes. The increase and saturation of anodic dissolution in ECM with plastic deformation were observed and were empirically formulated in terms of the change in activation energy. Thus, plastic deformation is proposed as a promising parameter that contributes to controlling ECM.

Original language	English
Pages (from-to)	773-777
Number of pages	5
Journal	MRS Communications
Volume	9
Issue number	2
DOIs	https://doi.org/10.1557/mrc.2019.68
Publication status	Published - 2019 Jun 1

ASJC Scopus subject areas

Materials Science(all)

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10.1557/mrc.2019.68

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title = "Plastic deformation affecting anodic dissolution in electrochemical migration",

abstract = "This study investigated the effect of plastic deformation on anodic dissolution in electrochemical migration (ECM) through the growth of deposits. The morphology of deposits synthesized by ECM was analyzed using scanning electron microscopy, where sponge-shaped deposits were observed on the cathode electrode. The mechanism of anodic dissolution was examined by experimentally measuring the variation in the mass of electrodes. The increase and saturation of anodic dissolution in ECM with plastic deformation were observed and were empirically formulated in terms of the change in activation energy. Thus, plastic deformation is proposed as a promising parameter that contributes to controlling ECM.",

author = "Yasuhiro Kimura and Shoya Wakayama and Masumi Saka",

note = "Funding Information: This study was supported by a Grant-in-Aid for JSPS KAKENHI Grant-in-Aid for Scientific Research (B) No. 17H03139. This study was performed at the Micro/Nano-Machining Research and Education Center of Tohoku University. Publisher Copyright: Copyright {\textcopyright} Materials Research Society 2019.",

year = "2019",

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doi = "10.1557/mrc.2019.68",

language = "English",

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T1 - Plastic deformation affecting anodic dissolution in electrochemical migration

AU - Kimura, Yasuhiro

AU - Wakayama, Shoya

AU - Saka, Masumi

N1 - Funding Information: This study was supported by a Grant-in-Aid for JSPS KAKENHI Grant-in-Aid for Scientific Research (B) No. 17H03139. This study was performed at the Micro/Nano-Machining Research and Education Center of Tohoku University. Publisher Copyright: Copyright © Materials Research Society 2019.

PY - 2019/6/1

Y1 - 2019/6/1

N2 - This study investigated the effect of plastic deformation on anodic dissolution in electrochemical migration (ECM) through the growth of deposits. The morphology of deposits synthesized by ECM was analyzed using scanning electron microscopy, where sponge-shaped deposits were observed on the cathode electrode. The mechanism of anodic dissolution was examined by experimentally measuring the variation in the mass of electrodes. The increase and saturation of anodic dissolution in ECM with plastic deformation were observed and were empirically formulated in terms of the change in activation energy. Thus, plastic deformation is proposed as a promising parameter that contributes to controlling ECM.

AB - This study investigated the effect of plastic deformation on anodic dissolution in electrochemical migration (ECM) through the growth of deposits. The morphology of deposits synthesized by ECM was analyzed using scanning electron microscopy, where sponge-shaped deposits were observed on the cathode electrode. The mechanism of anodic dissolution was examined by experimentally measuring the variation in the mass of electrodes. The increase and saturation of anodic dissolution in ECM with plastic deformation were observed and were empirically formulated in terms of the change in activation energy. Thus, plastic deformation is proposed as a promising parameter that contributes to controlling ECM.

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Plastic deformation affecting anodic dissolution in electrochemical migration

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