In-Situ Separation and Determination of Palladium from Platinum Based on Different Vaporization Temperatures by Electrothermal Vaporization Inductively Coupled Plasma Optical Emission Spectrometry wit
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- 作者:Yiwei Wu ; Zucheng Jiang ; Bin Hu ; Chaomei Xiong and Yinjie Li
- 关键词:Key words ; In ; situ separation ; chelating resin YPA4 ; palladium ; platinum ; ETV ; ICP ; OES ; chemical modifier.
- 刊名:Microchimica Acta
- 出版年:2004
- 出版时间:December 2004
- 年:2004
- 卷:148
- 期:3-4
- 页码:279-284
- 全文大小:101 KB
- 刊物类别:Chemistry and Materials Science
- 刊物主题:Chemistry
Analytical Chemistry
Inorganic Chemistry
Physical Chemistry
Characterization and Evaluation Materials
Monitoring, Environmental Analysis and Environmental Ecotoxicology - 出版者:Springer Wien
- ISSN:1436-5073
文摘
A new method has been developed for in-situ separation of Pd from a Pt matrix and determination of trace Pd based on different vaporization temperatures by electrothermal vaporization (ETV) inductively coupled plasma optical emission spectrometry (ICP-OES) with the use of polythioether backbone modified with a diaminoisopropylmercaptane chelating group (YPA4), both as solid phase extractant and chemical modifier. In 0.5M HNO3, Pd and Pt can be adsorbed by YPA4. The resin loaded with Pd and Pt was then prepared to form a slurry that can be directly introduced into the graphite furnace without any pretreatment. The factors affecting in-situ separation of Pd from the Pt matrix were investigated in detail. It was found that, in the presence of YPA4, Pd could be quantitatively vaporized at lower vaporization temperatures (1800°C–1900°C), while Pt could not be vaporized from the graphite furnace at the same temperature, its quantitative vaporization temperature being 2600°C. Based on the different vaporization temperatures, in-situ separation of Pd from the Pt matrix and determination of trace Pd by ETV-ICP-OES was achieved in the temperature range of 1800°C–1900°C. Under the optimized conditions, the detection limit (3) of Pd is 60pg, and the relative standard deviation (RSD) is 5.6% (n=9, C=0.2µgmL–1). The method has been applied to the determination of trace Pd in anode slime and Auto Catalyst NIST SRM 2557 reference material, and the determined values coincide with the certified values.