@article{oai:rakuno.repo.nii.ac.jp:00001813, author = {増田, 和香子 and 小崎, 大輔 and NAKATANI, Nobutake and 中谷, 暢丈 and 後藤, 良三 and 森, 勝伸 and 古月, 文志 and 田中, 一彦}, issue = {4}, journal = {分析化学, BUNSEKI KAGAKU}, month = {Apr}, note = {Article, Electrostatic ion chromatography (EIC) of anions and cations with water eluent has been investigated for the development of water-monitoring systems in developing countries, which have the nature of simple, lower running cost, and non-chemical waste. For selecting the separation column, sulfobetaine-type zwitterionic surfactant (CHAPS)-modified silica C_<18> and silica C_<30> columns, and a zwitterionic stationary phased column HILIC were compared for anion separations. The retention order of the analyte anions was SO_4^<2−> column was the most suitable as a separation column in EIC in terms of the peak resolution and the retention time. In contrast, cation separations using the CHAPS-modified silica C_<18> column with a water eluent were in the order of monovalent cations (Li^+, Na^+, K^+ and NH_4^+) < divalent cations (Mg^<2+> and Ca^<2+>). This fact means that the sulfobetain-type zwitterionic stationary phase has much higher selectivity for anions than for cations. Moreover, a pre-column (cation-exchange resin in the Li^+-form for anion separations, and anion-exchange resin in the Cl^−-form for cation separations) was connected in tandem before the separation column, in order to make uniform the counter ion for analyte ions and to apply this method to real water samples. Under the optimized conditions, the linearity of the calibration graph, the detection limit, and the reproducibility for the common anions were tested, and satisfactory results was obtained for all common anions. The potentiality of EIC was demonstrated in practical applications to the determination of common anions (SO_4^2−, Cl^−, NO_3^− and HCO_3^−) and hardness in river water.}, pages = {311--315}, title = {両性イオン界面活性剤を修飾したシリカ-C_<18>カラムと水溶離液を用いる陰イオンと陽イオンの導電率検出静電型イオンクロマトグラフィー}, volume = {58}, year = {2009} }