On-line matrix removal of lead for the determination of trace elements in forensic bullet samples by flow injection inductively coupled plasma-mass spectrometry

Yourd, Emily Ruth; Tyson, Julian F.; Koons, Robert D.

doi:10.1016/s0584-8547(01)00268-3

Cited by 24 publications

(15 citation statements)

References 12 publications

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“…As it has been reported [17,19,21,22] that the sorption characteristics of the resin for lead are affected by the concentration of nitric acid, the concentration of nitric acid in the carrier solution was varied over a range. This range was 0-20% (v/v) for manifold 1, and 0-5% (v/v) for manifold 2.…”

Section: Methods Developmentmentioning

confidence: 99%

“…This characteristic of the resin has proven advantageous for the determination of trace lead in iron and steel [18], and the resin's high capacity for lead has been exploited for matrix removal for multielement determinations [19]. Recently, the procedure used for the analysis of iron and steel has been adapted [20] for the preconcentration and determination of lead in river and seawater materials by FI-FAAS and FI-ICP-MS.…”

Section: Introductionmentioning

confidence: 99%

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Evaluation of Pb-Spec® for flow-injection solid-phase extraction preconcentration for the determination of trace lead in water and wine by flame atomic absorption spectrometry

Bakırcıoğlu

Segade

Yourd

et al. 2003

Analytica Chimica Acta

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Two manifold designs were evaluated. Water samples and wine digests in 10% nitric acid were pumped through a column containing a commercially available resin (Pb-Spec ® ), an immobilized crown ether with a cavity size selective for Pb 2+ . The column was rinsed with 2% HNO 3 and the eluent, 0.1 mol l −1 ammonium oxalate was injected via a six-port rotary valve. The eluted lead was delivered to the flame atomic absorption spectrometer at 4.0 ml min −1 . The following flow-injection (FI) parameters were optimized: sample acidity and volume, loading and elution flow rates, and eluent composition and volume.The detection limit for the water samples, estimated from the noise on the signal obtained for 250 ml of 10 g l −1 loaded at 19.1 ml min −1 was 1 g l −1 . For 50 ml of wine digest loaded at 4 ml min −1 , the value was 3 g l −1 . The roles of loading flow rate and sample volume were investigated in detail. The variation in retention efficiency with loading flow rate showed that the amount of lead retained (during a fixed loading time) increased with flow rate until the upper performance limit of the peristaltic pump was reached. The variation of detection limit with sample volume followed the expected hyperbolic relationship and showed that only small improvements in LOD were obtained for volumes greater than 50 ml. The method was evaluated through spike recovery for both water and wine. The lead contents of tap (0.24 g l −1 ), pond (0.40 g l −1 ), and river waters (not detected) were determined. The concentrations of lead in three Port wine samples ranged from not detected to 190 g l −1 . No significant matrix suppression effects were observed.

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Section: Methods Developmentmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Evaluation of Pb-Spec® for flow-injection solid-phase extraction preconcentration for the determination of trace lead in water and wine by flame atomic absorption spectrometry

Bakırcıoğlu

Segade

Yourd

et al. 2003

Analytica Chimica Acta

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“…Great efforts have been made to analyze lead in trace levels by means of a wide range of spectrometric methods such as electrothermal atomization atomic absorption spectrometry (ET-AAS), sequential multi-element flame atomic absorption spectrometry, graphite furnace atomic absorption spectrometry (GFAAS), electrothermal atomic absorption spectrometry, inductively coupled plasma-mass spectrometry (ICP-MS), hydride generation atomic absorption spectrometry and flame atomic absorption spectrometry (FAAS) [7][8][9][10][11][12][13][14][15].…”

Section: Introductionmentioning

confidence: 99%

Preparation of nano-sized Pb2+ imprinted polymer and its application as the chemical interface of an electrochemical sensor for toxic lead determination in different real samples

Alizadeh

Amjadi

2011

Journal of Hazardous Materials

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“…In developing a method for the analysis of bullets by ICP-MS, we initially chose FI-SPE to remove the lead (4). Most of the previous work on the use of solid-phase reactors in FI systems for the separation of analytes from matrices has been based on a protocol whose primary goal is preconcentration.…”

Section: Introductionmentioning

confidence: 99%

“…The SPE manifold, which provides the basis for the comparison, has been described previously (4). To summarize, a 130 µL sample was injected into a nitric acid carrier that moved the sample through a glass column (5 cm × 4 mm i.d.)…”

Section: Introductionmentioning

confidence: 99%

Comparison of supported liquid membranes and solid-phase extraction for quantitative removal of lead from aqueous solutions

Yourd¹,

Tyson²

2003

Can. J. Chem.

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The selective transport of a target metal ion across a membrane from a donor to an acceptor solution is an attractive concept for preconcentration or separation in a flow injection (FI) system. However, we found that the transport of lead across a supported liquid membrane consisting of dicyclohexano-18-crown-6 in decanol embedded in Celgard 2400 was too slow to be practical for an FI atomic spectrometry system. On the other hand, the same chemistry in an on-line, solid-phase reactor (a mini-column containing Pb-Spec resin) gave a satisfactory performance. In an attempt to understand the kinetics of the system, we have calculated the rate of transport across the membrane. As flux is proportional to concentration on the donor side -which decreases with time -we performed a series of numerical simulations involving fixed time intervals of decreasing values. These calculations show that for the sizes of membranes in a typical FI system, transport is very slow compared with the adsorption of lead by the Pb-Spec resin: it takes about 100 min for the concentration in a 0.06 mL donor solution to decrease by a factor of 1000. The time required for the same decrease in concentration for a membrane having the same surface area and ligand concentration as the Pb-Spec column was calculated as approximately 9 s.Key words: supported liquid membrane, solid-phase extraction, flow-injection, lead. Résumé :Le transport sélectif d'un ion métallique cible à travers une membrane à partir d'un donneur vers une solution accepteuse est un concept attrayant pour la préconcentration ou la séparation dans un système à injection continue (IC). Cependant, nous avons trouvé que le transport du plomb à travers une membrane liquide incrustée dans un support, cette membrane est constituée de dicyclohexano-18-couronne-6 dans le décanol incorporé dans du Celgard 2400, est trop lent pour être pratique dans un système de spectrométrie atomique à injection continue (IC). Par ailleurs la même chimie en continu dans un réacteur en phase solide (une mini colonne contenant une résine Pb-Spec), a donné une performance satisfaisante. Dans une tentative pour comprendre la cinétique du système, nous avons calculé la vitesse de transport à travers la membrane. Comme le flux est proportionnel à la concentration du côté du donneur, laquelle diminue avec le temps, nous avons réalisé une série de simulations numériques impliquant des intervalles de temps fixes de valeurs décroissantes. Ces calculs montrent que, compte tenu des dimensions des membranes dans un système typique à injection continue, le transport est très lent comparativement à l'adsorption du plomb par la résine Pb-Spec; il faut environ 100 minutes pour que la concentration dans 0,06 mL d'une solution donneuse décroisse d'un facteur de 1000. Le temps requis pour la même diminution de concentration dans le cas d'une membrane ayant la même superficie et la même concentration de ligand dans une colonne de Pb-Spec est selon les calculs approximativement de 9 s.

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On-line matrix removal of lead for the determination of trace elements in forensic bullet samples by flow injection inductively coupled plasma-mass spectrometry

Cited by 24 publications

References 12 publications

Evaluation of Pb-Spec® for flow-injection solid-phase extraction preconcentration for the determination of trace lead in water and wine by flame atomic absorption spectrometry

Evaluation of Pb-Spec® for flow-injection solid-phase extraction preconcentration for the determination of trace lead in water and wine by flame atomic absorption spectrometry

Preparation of nano-sized Pb2+ imprinted polymer and its application as the chemical interface of an electrochemical sensor for toxic lead determination in different real samples

Comparison of supported liquid membranes and solid-phase extraction for quantitative removal of lead from aqueous solutions

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