Mizuo Ishii scite author profile

Mizuo Ishii

5Publications

8Citation Statements Received

50Citation Statements Given

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Nichia Corporation (Japan)

Publications

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Development of a New Suppressor for the Ion Chromatography of Inorganic Cations

et al. 2014

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This paper reports on a new suppressor that can be used in the ion chromatography (IC) of inorganic cations. The space in which the electrode is set on both sides of the device is separated into three cells using anion-and cation-exchange membranes. Each of the cells is packed with either an anion-or cation-exchange resin. Anions in the eluent and injected sample are removed by electrical regeneration, based on the electrokinetic phenomenon on both the surface of the ion-exchange resins and the membranes. The electrical conductivity of the suppressed eluent reaches a level similar to that of ultrapure water; therefore, a cation detection limit of sub-ppb order is achieved in IC using the device as a suppressor.

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Development of an Anti-Analyte Ion Remover Used for Ion Chromatography: Part 1. Examination of a Device for Anion Analysis

et al. 2012

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Device to generate high purity hydroxide solution in-line for ion chromatography

Masunaga

Higo

Ishii

et al. 2016

Journal of Chromatography A

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Selective removal of carbon dioxide contained in the effluent from ion chromatography suppressors using a new non-vacuum device

Masunaga

Higo

Ishii

et al. 2015

Journal of Chromatography A

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In-line System to Produce High-Purity Acid Solutions

et al. 2016

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Herein, we report a new device that generates a high-purity acid solution. It comprises three compartments divided by anion-exchange membranes and filled with ion-exchange resins. Fluorochemical cation-exchange membranes, which tolerate electrochemical wear and permit bulk flow, are inserted between each electrode and the anion-exchange resin.A bipolar boundary is a composite boundary comprising anion and cation exchangers. This device has four bipolar boundaries to separate the location of acid generation from the location where water is electrolyzed. It can tolerate high pressures, resist degradation due to electrolysis at the electrodes, and produce high-purity acid solutions that are free from gases and cationic impurities. The acid solution is generated on the basis of an electrokinetic phenomenon at the surfaces of ion-exchange resins and membranes in an electric field; its concentration can be controlled at rates from 0.01 to 100 μmol/min by adjusting the electrical current applied to the device.

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Mizuo Ishii

Development of a New Suppressor for the Ion Chromatography of Inorganic Cations

Development of an Anti-Analyte Ion Remover Used for Ion Chromatography: Part 1. Examination of a Device for Anion Analysis

Device to generate high purity hydroxide solution in-line for ion chromatography

Selective removal of carbon dioxide contained in the effluent from ion chromatography suppressors using a new non-vacuum device

In-line System to Produce High-Purity Acid Solutions

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