Detail publikačního výsledku

Determination of Bismuth by Dielectric Barrier Discharge Atomic Absorption Spectrometry Coupled with Hydride Generation: Method Optimization and Evaluation of Analytical Performance

KRATZER J., BOUSEK J., STURGEON R.E., MESTER Z., DĚDINA, J.

Originální název

Determination of Bismuth by Dielectric Barrier Discharge Atomic Absorption Spectrometry Coupled with Hydride Generation: Method Optimization and Evaluation of Analytical Performance

Anglický název

Determination of Bismuth by Dielectric Barrier Discharge Atomic Absorption Spectrometry Coupled with Hydride Generation: Method Optimization and Evaluation of Analytical Performance

Druh

Článek WoS

Originální abstrakt

Atomization of bismuth hydride in a 17 W planar quartz dielectric barrier discharge (DBD) atomizer was optimized and the performance of this device compared to that of a conventional quartz tube atomizer (QTA) for atomic absorption spectrometry (AAS). Free Bi atoms were also observed in the DBD with nitrogen, hydrogen, and helium discharge gases but not in air. The detection limit for Bi is worse than with the QTA. Nevertheless, this hydride generation DBDAAS approach can be used for the routine determination of Bi, providing repeatability and accuracy comparable to that reached with a QTA, as demonstrated by analysis of NIST SRM 1643e (trace elements in water). The potential of in-atomizer preconcentration in a DBD atomizer is outlined.

Anglický abstrakt

Atomization of bismuth hydride in a 17 W planar quartz dielectric barrier discharge (DBD) atomizer was optimized and the performance of this device compared to that of a conventional quartz tube atomizer (QTA) for atomic absorption spectrometry (AAS). Free Bi atoms were also observed in the DBD with nitrogen, hydrogen, and helium discharge gases but not in air. The detection limit for Bi is worse than with the QTA. Nevertheless, this hydride generation DBDAAS approach can be used for the routine determination of Bi, providing repeatability and accuracy comparable to that reached with a QTA, as demonstrated by analysis of NIST SRM 1643e (trace elements in water). The potential of in-atomizer preconcentration in a DBD atomizer is outlined.

Klíčová slova

dielectric barrier discharge, DBD, atomic absorption spektrometry, AAS, quartz tube atomizér, QTA

Klíčová slova v angličtině

dielectric barrier discharge, DBD, atomic absorption spektrometry, AAS, quartz tube atomizér, QTA

Autoři

KRATZER J., BOUSEK J., STURGEON R.E., MESTER Z., DĚDINA, J.

Rok RIV

2015

Vydáno

23.09.2014

Nakladatel

American Chemical Society

Místo

Washington, USA

ISSN

0003-2700

Periodikum

ANALYTICAL CHEMISTRY

Svazek

2014

Číslo

86

Stát

Spojené státy americké

Strany od

9620

Strany do

9625

Strany počet

6

BibTex

@article{BUT110534,
  author="Jaroslav {Boušek}",
  title="Determination of Bismuth by Dielectric Barrier Discharge Atomic Absorption Spectrometry Coupled with Hydride Generation: Method Optimization and Evaluation of Analytical Performance",
  journal="ANALYTICAL CHEMISTRY",
  year="2014",
  volume="2014",
  number="86",
  pages="9620--9625",
  doi="10.1021/ac502093y",
  issn="0003-2700"
}