Graphite filter atomizer in atomic absorption spectrometry

Katskov, DA

07 December 2006

Graphite filter atomizers (GFA) for electrothermal atomic absorption spectrometry (ETAAS) show substantial advantages over commonly employed electrothermal vaporizers and atomizers, tube and platform furnaces, for direct determination of high and medium volatility elements in matrices associated with strong spectral and chemical interferences. Two factors provide lower limits of detection and shorter determination cycles with the GFA: the vaporization area in the GFA is separated from the absorption volume by a porous graphite partition; the sample is distributed over a large surface of a collector in the vaporization area. These factors convert the GFA into an efficient chemical reactor. The research concerning the GFA concept, technique and analytical methodology, carried out mainly in the author's laboratory in Russia and South Africa, is reviewed. Examples of analytical applications of the GFA in AAS for analysis of organic liquids and slurries, bio-samples and food products are given. Future prospects for the GFA are discussed in connection with analyses by fast multi-element AAS.

Atomic absorption spectrometry

Electrothermal vaporization

Development of laser micro-sampling and electrothermal vaporization techniques for ICP-mass spectrometry and its cosmochemical implications on opaque assemblages in chondrites / ICP質量分析法を用いた微量元素同位体分析に向けたレーザー局所サンプリング法および電気加熱気化法の開発とその宇宙化学物質への応用

Okabayashi, Satoki

24 March 2014

京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第18086号 / 理博第3964号 / 新制||理||1571(附属図書館) / 30944 / 京都大学大学院理学研究科地球惑星科学専攻 / (主査)教授 平田 岳史, 教授 田上 高広, 准教授 三宅 亮 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DGAM

ICP-MS

laser ablation in liquid

isotope

electrothermal vaporization

chondrite

400

Determination of metal in rice flour and plastic by slurrysampling electrothermal vaporization inductively coupled plasmamass spectrometry

Li, Po-Chien

07 July 2003

Ultrasonic slurry sampling electrothermal vaporization dynamic reaction cellTM inductively coupled plasma mass spectrometry (USS-ETV-DRC-ICP-MS) has been applied to determine Cr, Cu, Cd, Hg and Pb in several rice samples. The influences of instrument operating conditions and slurry preparation on the ion signals were reported. Ascorbic acid was used as the modifier to enhance the ion signals. The background ions at the chromium masses were reduced in intensity significantly by using 0.4 ml min-1 NH3 as reaction cell gas in the dynamic reaction cell (DRC) while a q value of 0.6 was used. Since the sensitivities of Cr, Cu, Cd, Hg and Pb in rice flour slurry and aqueous solution were quite different, standard addition and isotope dilution methods were used for the determination of Cr, Cu, Cd, Hg and Pb in these rice samples. This method has been applied to the determination of Cr, Cu, Cd, Hg and Pb in NIST SRM 1568a rice flour reference material and two rice samples purchased from the market. The analysis results of the reference material agreed with the certified values. The results for the rice samples for which no reference values were available were also found to be in good agreement between isotope dilution method and standard addition method. The method detection limits estimated from standard addition curves were about 0.44, 1.7, 0.4, 0.53 and 0.69 ng g-1 for Cr, Cu, Cd, Hg and Pb, respectively, in original rice flour.Ultrasonic slurry sampling electrothermal vaporization dynamic reaction cellTM inductively coupled plasma mass spectrometry (USS-ETV-DRC-ICP-MS) has been applied to the determination of Cr, Cd and Pb in several plastic samples. The influences of instrument operating conditions and slurry preparation on the ion signals were investigated. NH4NO3 was used as the modifier to enhance the ion signals. The background ions at the chromium masses were reduced in intensity significantly by using NH3 as reaction cell gas in the DRC. Standard addition method and isotope dilution method were used for the determination of Cr, Cd and Pb in these plastic samples. This method was applied to the determination of Cr, Cd and Pb in two polystyrene and a polyvinyl chloride samples. The analysis results were found to be in good agreement between isotope dilution method and standard addition method. Furthermore, we digested these samples and analyzed the digested sample solutions by ultrasonic nebulization DRC ICP-MS. The analysis results were close to the isotope dilution and standard addition results. The precision between sample replicates was better than 3% with USS-ETV-DRC-ICP-MS method. The method detection limits estimated from standard addition curves were about 6.2-9.2, 1.1-1.6 and 8.4-11 ng g-1 for Cr, Cd and Pb, respectively, in original plastic samples.

plastic

DRC

ICP-MS

ultrasonic slurry sampling

Pb

Hg

Cr

Cu

Cd

electrothermal vaporization

rice

Simultaneous electrothermal vaporization and nebulization sources and improved methodologies for metallomic studies using ICP-MS

Arnquist, Isaac James

13 November 2012

Both electrothermal vaporization (ETV) and nebulizer introduction sources offer unique advantages for inductively coupled plasma mass spectrometry (ICP-MS) analyses. A device for coupling the ETV and nebulizer was developed so that a quick switch from the nebulizer to the ETV (termed 'inline-ETV') could help gain additional information. The inline-ETV produced similar limits of detection (LODs) for most elements in both HNO₃ and HCl matrices compared to a conventional nebulizer or ETV. However, in a problematic matrix, isobaric interferences could exist that may not be accounted for in a typical nebulizer analysis. In a 1% HCl matrix, the LODs for ⁵¹V and ⁵³Cr--which are interfered with by ⁵¹ClO⁺ and ⁵³ClO⁺, respectively--improved 65- and 22-fold using the inline-ETV source compared to a typical nebulizer. In recent applications, ICP-MS has gained attention as a way of determining metal-protein associations. A novel broad-based methodology was developed to characterize metal-protein associations. The method utilized native gel electrophoresis for separation followed by electroblotting onto chemically-modified quartz membranes. The membranes were analyzed for metals using laser ablation ICP-MS. Modified membranes were shown to improve sensitivity compared to ablating a dried gel directly or using a commercially-available membrane. The coupling of separation by preparative ultracentrifugation and metal detection by ICP-MS was explored for metal-protein equilibrium determinations. This study characterizes the stoichiometry as well as apparent (K[subscript app]) and intrinsic (K[subscript int]) binding affinities for Cu-BSA, which was used as a model protein. K[subscript app] and K[subscript int] were determined at two different conditions, pH 9.53 and pH 7.93 in 100mM Tris buffer. The pH-independent K[subscript int] value at pH 9.53 agreed closely with literature values, while the value at pH 7.93 was approximately 2.5x larger. BSA undergoes a structural rearrangement between pH 7-9, and the generally accepted pH-dependency of protein tertiary structure may be responsible for the variations in the "intrinsic" binding constant. Overall, this study validates and shows the efficacy of combining preparative ultracentrifugation with ICP-MS detection for interrogating metal-protein associations while causing minimal equilibrium perturbations as a result of the separation and measurement processes. / text

Electrothermal vaporization

Metallomics

Metal-protin affinity

Microwave-assisted cloud point extraction coupled with DRC-ICP-MS for the determination of Cr, Cu, Cd and Pb in water samples

Gu, Yu-chang

08 February 2010

none

Copper

Cadmium

Microwave-assisted extraction

Chromium

ICP-MS

Lead

DRC

CPE

Cloud point extraction

ETV

Electrothermal vaporization

Applications de la vaporisation électrothermique couplée à la technique ICP-AES pour la détermination élémentaire dans les végétaux : une stratégie permettant l’analyse directe des échantillons à l’état solide / Application of the electrothermal vaporization method coupled with simultaneous inductively coupled plasma atomic emission spectrometry for the elemental determinations in plant samples : A strategy for the direct analysis of samples in the solid state.

Masson, Pierre

19 May 2014

Parmi les systèmes dédiés à l’analyse directe des solides, la vaporisation électrothermique occupe une place de choix. Elle offre plusieurs avantages. Le temps de préparation des échantillons est considérablement réduit. Il n’y a pas de dilution induite par la minéralisation et les risques de pertes ou de contaminations durant cette étape sont éliminés. Son principe de fonctionnement consiste à transformer, par chauffage, quelques milligrammes d’échantillon en un aérosol, qui est ensuite transporté dans un spectromètre d’émission atomique par plasma à couplage inductif, où la composition élémentaire est mesurée. Une première étude fondamentale a permis de mieux comprendre la dynamique de l’aérosol formé et de définir les meilleures conditions opératoires. L’utilisation de cette technique pour la détermination élémentaire dans les végétaux a présenté cependant des difficultés supplémentaires : difficulté d’étalonnage, effets de matrice et grandes variabilités sur les concentrations mesurées. L’utilisation d’un support de cellulose pour les solutions étalons a permis d’harmoniser les conditions de formation de l’aérosol pour l’échantillon et pour l’étalon, et d’obtenir ainsi des résultats justes. Les effets de matrices ont pu être considérablement réduits par une calcination préalable des échantillons. Le manque de précision des mesures, causée par le manque d’homogénéité des échantillons, a pu être limitée en de réduisant significativement la taille des particules solides. Ces résultats obtenus sur des poudres ont permis d’autres applications comme l’analyse d’échantillons entiers ou la cartographie de la composition chimique d’organes végétaux. / Among the systems dedicated to the direct analysis of the solids, electrothermal vaporization takes up a place of choice. It offers several advantages. The preparation time of the samples is considerably reduced. There is no dilution induced by the digestion and the risks of losses or contaminations during this stage are eliminated. Its functioning consists to convert, by heating, a few milligrams of sample into an aerosol which is then transported in an inductively coupled plasma atomic emission spectrometer, where the elemental composition of the sample is determinate. A first fundamental study allowed to better understand the dynamics of the formed aerosol and to define the best operating conditions. However, the use of this technique to determine the elemental composition of solid plant samples presented additional difficulties: difficulty of calibration, matrix effects and important imprecision on the measured concentrations. The use of a cellulose support for the standard solutions allowed to harmonize the formation of the aerosol between the sample and the standard, and to obtain accurate results. The matrix effects can be considerably reduced by a preliminary dry-ashing of the samples. The variability of measurements, caused by the lack of homogeneity of the samples, was limited by reducing significantly the size of the solid particles. These results, obtained on powders, allowed other applications as the analysis of whole plant samples or the imaging of the chemical composition of plant organs.

Vaporisation électrothermique

Végétaux

Eléments majeurs

Eléments en trace

Electrothermal vaporization

Plant samples

Macronutrients

Trace elements.