Analytical methodology for the validation of multielemental detection of Al, Ba, Co, Cr, Cu, Mn, Mo, Ni, Pb, Th, Ti, U and Zn in water

IF 1.3 4区 环境科学与生态学 Q3 ECOLOGY
Elizabeth Teresita Romero Guzmán, Manuel Alejandro Pérez Brito
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引用次数: 0

Abstract

ABSTRACTAn analytical procedure for the determination of 13 elements in the water samples has been developed and validated. The elements (Al, Ba, Co, Cr, Cu, Mn, Mo, Ni, Pb, Th, Ti, U and Zn), in their dissolved form in water, were measured by high resolution sector field inductively coupled plasma mass spectrometry. A validation approach was used in accordance with the requirements of ISO/IEC 17025 and following the Eurachem guideline. Taking this into account, the parameters selectivity, detection limit, quantification limit, linear interval, sensitivity, bias, recovery percentage, repeatability, reproducibility, and uncertainty were systematically assessed. Detection limits from 0.0014 to 0.2363 ng mL−1 were obtained. Recovery values from 82.3 to 100.6% for the water certified reference material (CRM) were achieved. Repeatability from 1 to 3% and reproducibility from 1 to 4.1% were hit. The expanded uncertainty associated with each result was estimated by identifying the main uncertainty sources. The potential of the proposed analytical procedure for water, based on the low detection limits obtained, allows the method to determine very low concentration levels in water, such as small variations in its concentration. This methodology can potentially be applied to all types of water, because most of the elements analysed are listed in the official regulations for water.KEYWORDS: WaterICP-SFMSmethod validationISO-17025uncertaintytrace elements AcknowledgementsTo Eng. Fortunato Aguilar Hernández, Eng. Israel Bolaños Gutiérrez, Eng. Adrián Reyes del Valle and element users for their invaluable help. Thanks for LANAFONU to provide facilities and equipment to carry out the project.Disclosure statementNo potential conflict of interest was reported by the author(s).Additional informationFundingThe authors acknowledge the infrastructure and support of the National Nuclear Forensic Research Laboratory (Project No. 232762 CONACYT-2014, Modalidad A. Establecimiento de Laboratorio Nacional de Investigaciones en Forense Nuclear, LANAFONU.Notes on contributorsElizabeth Teresita Romero GuzmánElizabeth Teresita Romero-Guzmán is a Chemist, Master Degree in Ecology and Ph.D. in Engineering with an emphasis in water science at the Autonomous University of Mexico State. She has experience in analytical chemistry using conventional and radiochemical techniques, currently in high-resolution mass spectrometry to develop and optimise methods to measure heavy metals and radionuclides in environmental and different materials.Manuel Alejandro Pérez BritoManuel Alejandro Pérez Brito received his undergraduate education at the Technological Institute of Toluca and studied a Master's and PhD in Water Sciences at the Autonomous University of Mexico State. He is working in the area of mass spectrometry, with a focus on developing and optimising methods for determination of heavy metal and radionuclides in the environmental.
水中Al、Ba、Co、Cr、Cu、Mn、Mo、Ni、Pb、Th、Ti、U、Zn多元素检测方法验证
摘要建立了测定水样中13种元素的分析方法,并进行了验证。采用高分辨率扇形场电感耦合等离子体质谱法测定了Al、Ba、Co、Cr、Cu、Mn、Mo、Ni、Pb、Th、Ti、U和Zn在水中的溶解态。根据ISO/IEC 17025的要求和Eurachem指南使用了验证方法。考虑到这一点,系统地评估了选择性、检出限、定量限、线性区间、灵敏度、偏置、回收率、重复性、再现性和不确定度等参数。检出限为0.0014 ~ 0.2363 ng mL−1。水认证标准物质(CRM)的回收率为82.3 ~ 100.6%。重复性为1 ~ 3%,重现性为1 ~ 4.1%。通过识别主要的不确定源来估计与每个结果相关的扩展不确定度。基于所获得的低检测限,所建议的水分析程序的潜力允许该方法确定水中非常低的浓度水平,例如其浓度的微小变化。这种方法可能适用于所有类型的水,因为分析的大多数元素都列在有关水的官方条例中。关键词:水icp - sfmsmethod验证iso -17025不确定度痕量元素确认Fortunato Aguilar Hernández, Eng以色列Bolaños gutisamurez, EngAdrián Reyes del Valle和元素用户的宝贵帮助。感谢LANAFONU为项目的开展提供设施设备。披露声明作者未报告潜在的利益冲突。作者感谢国家核法医研究实验室(项目编号232762 CONACYT-2014, Modalidad A.)的基础设施和支持。作者简介:elizabeth Teresita Romero GuzmánElizabeth Teresita Romero-Guzmán,墨西哥州立自治大学化学家,生态学硕士和工程学博士,研究方向为水科学。她在使用传统和放射化学技术的分析化学方面有经验,目前在高分辨率质谱方面开发和优化测量环境和不同材料中的重金属和放射性核素的方法。Manuel Alejandro psamez Brito在Toluca理工学院接受本科教育,并在墨西哥州立自治大学攻读水科学硕士和博士学位。他在质谱领域工作,重点是开发和优化环境中重金属和放射性核素的测定方法。
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来源期刊
Chemistry and Ecology
Chemistry and Ecology 环境科学-环境科学
CiteScore
4.20
自引率
16.00%
发文量
58
审稿时长
3.7 months
期刊介绍: Chemistry and Ecology publishes original articles, short notes and occasional reviews on the relationship between chemistry and ecological processes. This journal reflects how chemical form and state, as well as other basic properties, are critical in their influence on biological systems and that understanding of the routes and dynamics of the transfer of materials through atmospheric, terrestrial and aquatic systems, and the associated effects, calls for an integrated treatment. Chemistry and Ecology will help promote the ecological assessment of a changing chemical environment and in the development of a better understanding of ecological functions.
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