铂族元素催化剂中金属杂质的直接和同时测定

Ashraf M. M. Abusenaina, V. Vojteková, K. Flórián, Zuzana Poperníková, V. Mičková, Miroslava Hámborská, S. Ružičková
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引用次数: 1

摘要

新型催化剂的生产需要有效的分析质量控制。采用原子发射光谱法(AES)研究了非均相催化剂中C+PdO的微量元素组成。提出了一种用AES进行直流电弧放电直接固态分析的新方法。在元素定性分析的基础上,鉴定出了Al、Fe、Ni、Si和Ti,并对这些元素建立了定量测定方法。给出了激励参数的优化和分析方法的验证。制备了以下成分的校准样品:石墨粉(作为基体),3%的PdO和不断增加的测定元素氧化物(光谱纯)的含量。采用最小二乘法计算标定值。元素杂质的工作范围为1% ~ 0.0003%,定量限(10 σ标准)为0.002% (Ti) ~ 0.0038% (Si)。为控制活性组分,对钯进行了标定(工作范围- 0.01% ~ 10.00%;定量限−0.027%)。该方法也可用于其它具有不同活性组分(铂族元素)的碳基催化剂的元素测定。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Direct and simultaneous determination of metal impurities in catalysts based on platinum group elements
Production of new catalysts requires effective analytical quality control. The study of trace element composition of heterogeneous catalysts, based on C+PdO, using atomic emission spectrometry (AES) was carried out. A new method for the direct solid-state analysis by means of AES with direct current arc discharge was developed. On the basis of the qualitative analysis of elements, Al, Fe, Ni, Si and Ti have been identified, and for these elements, the quantitative method of determination has been developed. Optimization of excitation parameters and validation of the analytical method are presented. Calibration samples of the following composition were prepared: graphite powder (as a matrix), 3% of PdO and increasing contents of determined element oxides (spectrally pure). Calibrations were calculated by means of the least squares method. Working range for element impurities was from 1% to 0.0003%, and the limits of quantification — LOQ, (10-σ criterion) varied in the range from 0.002% (Ti) to 0.0038% (Si). For the control of active component, palladium was calibrated (working range — 0.01%–10.00%; LOQ −0.027%). The developed method can be used, also, for the elemental determinations of the other carbon based catalysts with the different active components (of platinum group elements).
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