饮用水中无机碘总量测定用前脸荧光的微流体分析;原创论文

ty10086 提交于 周四, 08/26/2021 - 13:01
文章英文标题
Microfluidic Analysis with Front-Face Fluorometric Detection for the Determination of Total Inorganic Iodine in Drinking Water;Original Papers
正文
建立了前脸荧光检测的微流控法测定饮用水中总无机碘的方法。采用聚二甲基硅氧烷( PDMS )微流控装置结合Sandell-Kolthoff反应,碘催化Ce (Ⅳ)和As (Ⅲ)之间的氧化还原反应。采用光纤直接对准光谱测氟仪作为远距离前脸荧光检测的方便检测器。饮用水中自然存在的微量无机碘( IO3 -和I- )通过碘酸盐在线转化为碘化物测定无机总碘。利用微流控装置研究了碘酸盐在线转化为碘的效率。获得了优良的转化效率93 ~ 103 % ( % RSD = 1.6 ~ 11 % )。测定了饮用水样品中无机碘浓度,所得结果与ICP-MS法所得结果吻合较好。样品加标回收率为86 % ( ±5 ) ~ 128 % ( ±8 ) ( n = 12 )。考察了各种阴、阳离子的干扰,耐受极限浓度范围为10 - 6 ~ 2.5 M,视离子类型而定。该方法简单方便,是碘分析的绿色方法,大大减少了微流控尺度上试剂体积消耗的有毒试剂量。
文章内容(英文)
A microfluidic method with front-face fluorometric detection was developed for the determination of total inorganic iodine in drinking water. A polydimethylsiloxane (PDMS) microfluidic device was employed in conjunction with the Sandell–Kolthoff reaction, in which iodide catalyzed the redox reaction between Ce(IV) and As(III). Direct alignment of an optical fiber attached to a spectrofluorometer was used as a convenient detector for remote front-face fluorometric detection. Trace inorganic iodine (IO3− and I−) present naturally in drinking water was measured by on-line conversion of iodate to iodide for determination of total inorganic iodine. On-line conversion efficiency of iodate to iodide using the microfluidic device was investigated. Excellent conversion efficiency of 93 – 103% (%RSD = 1.6 – 11%) was obtained. Inorganic iodine concentrations in drinking water samples were measured, and the results obtained were in good agreement with those obtained by an ICP-MS method. Spiked sample recoveries were in the range of 86%(±5) – 128%(±8) (n = 12). Interference of various anions and cations were investigated with tolerance limit concentrations ranging from 10−6 to 2.5 M depending on the type of ions. The developed method is simple and convenient, and it is a green method for iodine analysis, as it greatly reduces the amount of toxic reagent consumed with reagent volumes in the microfluidic scale.
来源出处
Journal|[J]Analytical SciencesVolume 34, Issue 2. 2018. PP 161-167
DOI
https://doi.org/10.2116/analsci.34.161

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