電気化学会　秋　→　PRIME2016

Recent Trends in Electrochemistry at ITIES

Tuesday, 4 October 2016: 14:00-17:00

323 B (Hawai'i Convention Center) Chairs: Paul C Trulove and Hye Jin Lee

 

3358 Liquid Junction Potential Between Hydrophobic Ionic Liquid and Aqueous Electrolyte Solution

Tuesday, 4 October 2016: 16:00

323 B (Hawai'i Convention Center)

M. Yamamoto (JST-CREST, Department of Chemistry, Konan University), K. Kawai (Konan University), T. Kakiuchi (pH Science and Technology Laboratory, JST-CREST), and R. Murakami (Konan University)

 The liquid junction potential (LJP) across the two phases is very important for the basic science and real application of electrochemistry. In the case of the reference electrode the KCl salt-bridges are widely used, because the diffusion potential can be neglected in some cases by the almost same mobility of potassium ion and chloride ion in aqueous solution. However, if the difference of the concentration of solute between the two phases is great the LJP becomes several ten mV. And in the KCl salt-bridge KCl solution flow from reference electrode to the sample solution is essentially inevitable. To overcome these shortcomings of KCl salt bridge Kakiuchi et al. introduced the ionic liquid salt bridge (ILSB) concept and found that　LJP for ILSB is always constant and independent on the concentration of electrolyte in aqueous phase. The LJP for ILSB is distribution of cation an anion of IL to aqueous solution.[1]

　In the present study we have measured the electric conductivity of lithium bis(pentafluoroehtanesulfonyl)amide (LiC2C2N) and bis(pentafluoroethanesulfonyl)amide acid(HC2C2N) in aqueous solution. C2C2N anion is the ionic liquid component of ILSB and the cation is tributyl(2-methoxyethyl)phosphonium (TBMOEP). Form the conductivity measurements we have found that the molar conductivity at infinite dilution of C2C2N anion is 28.1 ± 0.7 S cm2 mol-1 and mobility is 2.91 × 10-4 cm2 V-1 s-1. Sakaida et al. reported the solubility of TBMOEP cation in aqueous solution is 2.64 x 10-4 cm2 V-1 s-1.[2] From these results we can estimate the diffusion potential across TBMOEPC2C2N | HCl solution using the Henderson equation. Even in the case of 0.5 mmol dm-3 the magnitude of the diffusion potential is 60　microvolt and the we can conclude that the diffusion potential is negligible in the TBMOEPC2C2N ILSB. We are now investigating the coupled Nernst-Plank and Poisson-Boltzmann equation to see the detail of the potential and the concentration profile.

 From the conductivity measurements we also found that HC2C2N is strong acid and C2C2N anion in aqueous phase is completely dissociated.

References

[1] T. Kakiuchi and T. Yoshimatsu,　Bull. Chem. Soc. Jpn. 79, 1017-1024 (2006).

[2] H. Sakaida, Y. Kitazumi, and T. Kakiuchi, Tantala, 83, 663-666 (2010).

　

—————————————————————————————————————————————

日本分析化学会第65年会 北大

Ｅ会場　第１日　　９月１４日（水）

 

E1018   9/14   17:15～17:30   Ｅ会場 

ポテンシャルステップクロノアンペロメトリからフーリエ・ラプラス変換を用いて求めたインピーダンスの液液界面への応用

○  山本 雅博1,2　甲南大理工1 ・ JST-CREST2

 

E2003   9/15   09:30～09:45   Ｅ会場 

銀／塩化銀電極の電位と塩化物イオンの単独イオン活量の推定

○垣内 隆 ・ 久住 政喜 ・ 掃部 敬介 ・ 八杉 慎太郎 ・ 中村 稜雅 ・ 橋本 凌 ・ 山本 雅博 ・ 村上 良

甲南大理工

 

 

 

 

 

------------------------------------------------------------------------------------------------------

第62回　ポーラログラフィーおよび電気分析化学討論会　

主催        日本ポーラログラフ学会

共催        日本化学会，電気化学会，日本分析化学会，溶媒抽出学会

会期        2016年11月19日(土) ～ 11月21日(月)

会場        宮古島市中央公民館大ホール　

（山本雅博実行委員長）

 

（〒906-0013　沖縄県宮古島市平良字下里315　 Tel：0980-73-1123）

https://www.city.miyakojima.lg.jp/soshiki/kyouiku/syougaigakusyu/kouminkan/

　　　　　

討論会主題「電気化学と数学：いるのいらないの？」

 

垣内 隆（甲南大理工・pH 計測科学ラボ）

特別講演 電気分析化学と数学 6

「いわゆるネルンスト式についての一考察」