Improvement of Precision Control in Optical Emission Spectrometry Quantifications for a Mineral Analysis Laboratory Using a Horwitz-Based Methodology

IF 1 4区 化学 Q4 CHEMISTRY, ANALYTICAL
Karel Nápoles-Florián, Javier Ernesto Vilasó-Cadre, Iván Alejandro Reyes-Domínguez, Juan Jesús Piña, Emmanuel José Gutiérrez-Castañeda, María de los Ángeles Arada-Pérez, Lázaro Adrián González-Fernández
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Abstract

Analytical methods used in mineral analysis laboratories are susceptible to significant sources of random error that define the level of intralaboratory precision. This requires a good quality control system to ensure that analytical performance is within statistical criteria established by institutional, national, or international bodies. The Horwitz equation and the Horwitz ratio (HorRat) are two related parameters derived from the historical reproducibility analysis that allow for predicting interlaboratory precision and establishing control criteria. The Horwitz ratio can be used not only to establish precision control methodologies between laboratories but also within them. This paper presents the development of a methodology based on the Horwitz ratio to enhance the existing precision quality system based on minimum difference tolerances through volumetric analysis. Data obtained from the quantification of iron, nickel, and cobalt by inductively coupled plasma optical emission spectrometry were analyzed for precision control verification. The HorRat values for iron ranged from 0.48 to 1.25 across concentrations ranging from 3.5 to 48.95%. For nickel, it ranged from 0.20 to 0.36 within the concentration interval of 0.2 to 4.99%. For cobalt, the HorRat ranged from 0.56 to 2.05 across concentrations from 0.01 to 0.499%. An acceptance criterion of HorRat < 1 was established, revealing problems in the established system resulting from the assumption of volumetric tolerances for a spectrometric method. The main deficiencies in the existing methodology were detected in the quantification of iron. The Horwitz-based methodology presented allowed for the improvement of intralaboratory precision and maintained better control over the process.

Abstract Image

使用基于 Horwitz 的方法改进矿物分析实验室光学发射光谱定量的精度控制
摘要 矿物分析实验室使用的分析方法容易受到重大随机误差的影响,这些误差决定了实验室内部的精度水平。这就需要一个良好的质量控制系统,以确保分析性能符合机构、国家或国际机构制定的统计标准。霍维茨方程和霍维茨比值(HorRat)是从历史重现性分析中得出的两个相关参数,可用于预测实验室间精密度和建立控制标准。霍维茨比值不仅可用于建立实验室之间的精密度控制方法,也可用于实验室内部的精密度控制方法。本文介绍了基于霍维茨比值的方法论的开发情况,该方法可通过体积分析增强基于最小差容差的现有精密质量体系。通过电感耦合等离子体光发射光谱法对铁、镍和钴的定量数据进行了分析,以进行精度控制验证。铁的 HorRat 值从 0.48 到 1.25 不等,浓度范围从 3.5 到 48.95%。镍的 HorRat 值在 0.2 至 4.99% 的浓度范围内介于 0.20 至 0.36 之间。钴的 HorRat 值在 0.01% 到 0.499% 的浓度范围内介于 0.56 到 2.05 之间。确定了 HorRat < 1 的接受标准,揭示了由于假设分光方法的体积公差而导致的既定系统中的问题。现有方法的主要缺陷体现在铁的定量上。所提出的基于 Horwitz 的方法可以提高实验室内部的精确度,并对过程进行更好的控制。
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来源期刊
Journal of Analytical Chemistry
Journal of Analytical Chemistry 化学-分析化学
CiteScore
2.10
自引率
9.10%
发文量
146
审稿时长
13 months
期刊介绍: The Journal of Analytical Chemistry is an international peer reviewed journal that covers theoretical and applied aspects of analytical chemistry; it informs the reader about new achievements in analytical methods, instruments and reagents. Ample space is devoted to problems arising in the analysis of vital media such as water and air. Consideration is given to the detection and determination of metal ions, anions, and various organic substances. The journal welcomes manuscripts from all countries in the English or Russian language.
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