Arsenic-sulfides confound anion exchange resin speciation of aqueous arsenic

Jenny Ayla Jay; Nicole Keon Blute; Harold F. Hemond; John L. Durant

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Arsenic-sulfides confound anion exchange resin speciation of aqueous arsenic

机译：硫化砷与含水砷的阴离子交换树脂形态混合

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A field-portable anion exchange resin method (often cited as the Ficklin method (1983)) has been extensively used to distinguish between dissolved arsenite (As(Ⅲ)) and arsenate (As(Ⅴ)) species in natural waters. As(Ⅲ) occurs largely as As(OH)_3, which is uncharged at ca. pH 7, while As(Ⅴ) is negatively charged and will sorb to the resin: However, we show that negatively charged As(Ⅲ)-sulfide (thioarsenite) species, important at sulfide concentrations > 10μM, also bind to the anion exchange resins, and therefore might be interpreted incorrectly as As(Ⅴ). Furthermore, we show that nitrogen-purging, which results in a conversion of As(Ⅲ)-sulfides to arsenite, can be used to obtain accurate arsenic speciation when resins are used on sulfidic water samples.

机译：野外可携带的阴离子交换树脂方法（通常称为Ficklin方法（1983年））已被广泛用于区分天然水中溶解的砷（As（Ⅲ））和砷酸盐（As（Ⅴ））种类。 As（Ⅲ）主要以As（OH）_3的形式出现，而Ca（3）则不带电。 pH 7，而As（Ⅴ）带负电并会吸附到树脂上；但是，我们发现带负电的As（Ⅲ）-硫化物（硫代亚砷酸盐）对硫化物浓度>10μM很重要，它也与阴离子交换树脂结合，因此可能会错误地解释为As（Ⅴ）。此外，我们表明，当在硫化水样品上使用树脂时，吹扫氮气可导致As（Ⅲ）-硫化物转化为亚砷酸盐，可用于获得准确的砷形态。

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《Water Research》 |2004年第5期|p.1155-1158|共4页
作者
Jenny Ayla Jay; Nicole Keon Blute; Harold F. Hemond; John L. Durant;
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作者单位

Civil and Environmental Engineering Department, University of California Los Angeles, 5732 H Boelter Hall, Los Angeles, CA 90095-1593, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类市政工程;
关键词
thioarsenites; adsorption; speciation; interference; ion exchange; water analysis;

机译：硫砷酸盐吸附形态干扰离子交换水分析;
入库时间 2022-08-17 13:56:24

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1. Extraction of trace arsenic from neutral aqueous solutions with anion-exchange resins [J] . R. V. Abrazheev, A. D. Zorin Журнал аналитической химии . 1999,第12期

机译：用阴离子交换树脂从中性水溶液中萃取痕量砷
2. Extraction of trace arsenic from neutral aqueous solutions with anion-exchange resins [J] . R. V. Abrazheev, A. D. Zorin Журнал аналитической химии . 1999,第12期

机译：用阴离子交换树脂从中性水溶液中提取痕量砷
3. The degradation of strong basic Anion exchange resins and Mixed-Bed ion-exchange resins: Effect of degradation products On radionuclide speciation [J] . L.R. Van Loon, W. Hummel Nuclear Technology . 1999,第3期

机译：强碱性阴离子交换树脂和混合床离子交换树脂的降解：降解产物对放射性核素形态的影响
4. Batch Studies for Removing Vanadium(V) and Chromium(VI) from Aqueous Solution Using Anion Exchange Resin [C] . Yang Yang, Hong-Yi Li, Min-Min Lin, Rare metal technology 2018 . 2018

机译：使用阴离子交换树脂从水溶液中去除钒（V）和铬（VI）的批量研究
5. Hydrogeochemical evolution of arsenic along groundwater flow paths: Linking aqueous and solid phase arsenic speciation. [D] . Haque, Shama Emy. 2007

机译：沿地下水流动路径的砷的水文地球化学演化：连接水相和固相砷形态。
6. Displacement chromatography on synthetic ion-exchange resins. 2. The separation of organic acids and acidic amino-acids by the use of anion-exchange resins [O] . S. M. Partridge, R. C. Brimley 1949

机译：合成离子交换树脂的置换色谱。 2.使用阴离子交换树脂分离有机酸和酸性氨基酸
7. (1)Anion Exchange Adosorption from Aqueous Solutions of Acid by Anion Exchange Resin V Br ak-Through Curves of Anion Exchange Resin Packed Column. [O] . Yutaka Yamamoto 1952

机译：（1）阴离子交换树脂V BR AK-贯穿阴离子交换树脂填充柱的酸水溶液的阴离子交换吸附。
8. COMPATIBILITY STUDIES OF ANION EXCHANGE RESINS. PART I. THE COMPATIBILITY OF DOWEX 1X4 NITRATE FORM ANION RESIN WITH NITRIC ACID AND OXIDES OF NITROGEN, [R] . molen, g. f. 1966

机译：阴离子交换树脂的相容性研究。第一部分：DOWEX 1X4硝酸盐形式阴离子树脂与硝酸和氮氧化物的相容性，

Arsenic-sulfides confound anion exchange resin speciation of aqueous arsenic

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