2017
DOI: 10.1021/acs.analchem.6b05158
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Battery-Operated Atomic Emission Analyzer for Waterborne Arsenic Based on Atmospheric Pressure Glow Discharge Excitation Source

Abstract: In this paper, a sensitive atomic emission spectrometer (AES) based on a new low power and low argon consumption (<8 W, 100 mL min) miniature direct current (dc) atmospheric pressure glow discharge (APGD) plasma (3 mm × 5 mm) excitation source was developed for the determination of arsenic in water samples. In this method, arsenic in water was reduced to AsH by hydride generation (HG), which was then transported to the APGD source for excitation and detected by a compact CCD (charge-coupled device) microspectr… Show more

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Cited by 47 publications
(43 citation statements)
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“…It should be noted that there was a voltage drop across the ballast resistors that was not included in this measurement and was large enough to make the total resistance positive. As shown in Figure b, APGD displayed a negative dynamic resistance, as has also been reported for other atmospheric pressure glow discharges sources. , Although negative resistance was commonly seen as an indication of an arc rather than of a glow discharge, APGD has been reported to still operate in the glow regime. , The observed negative resistance was in part ascribed to Joule heating, the extent of which grew with increasing current density; in turn, the concomitant increase of temperature lowered the density of the gas and therefore reduced the potential required to maintain a glow discharge . As shown in Figure a, when the SS cathode tube was not embedded into tube A1, the cathode surface coverage increased with increasing discharge current, which precluded the concomitant growth of the current density .…”
Section: Resultssupporting
confidence: 65%
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“…It should be noted that there was a voltage drop across the ballast resistors that was not included in this measurement and was large enough to make the total resistance positive. As shown in Figure b, APGD displayed a negative dynamic resistance, as has also been reported for other atmospheric pressure glow discharges sources. , Although negative resistance was commonly seen as an indication of an arc rather than of a glow discharge, APGD has been reported to still operate in the glow regime. , The observed negative resistance was in part ascribed to Joule heating, the extent of which grew with increasing current density; in turn, the concomitant increase of temperature lowered the density of the gas and therefore reduced the potential required to maintain a glow discharge . As shown in Figure a, when the SS cathode tube was not embedded into tube A1, the cathode surface coverage increased with increasing discharge current, which precluded the concomitant growth of the current density .…”
Section: Resultssupporting
confidence: 65%
“…The reaction mixture was subsequently passed into the GLS and merged with the carrier gas (He) for separation of the gaseous products from the postreaction solution. To prevent hydride-doped liquid components, which may cause fluctuations and energy drops of the discharge, from entering the discharge area, the product of the HG system was passed through a CaCl 2 -filled drying unit prior to APGD. , Figure b shows the core design of the self-made radiation source, indicating that this system was comprised of three fused silica tubes (A1–A3) of different diameters (A1, 1.6 mm i.d. × 3 mm o.d.…”
Section: Methodsmentioning
confidence: 99%
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“…In OES, various microplasmas have been used as excitation sources for compact instrumentation because of their unique advantages, including small size, low gas and power consumption, easy operation, and low manufacturing and running costs. These excellent characteristics also make them suitable for real-time and field analysis. Various types of microplasma-based excitation sources have been reported in recent years, such as microdischarge plasma including glow discharge (GD), corona discharge (CD), dielectric barrier discharge (DBD), and point discharge (PD). , They have been predominantly used for OES determination of various analytes, such as metal elements, inorganic anions, volatile carbon-containing compounds, and halohydrocarbons. …”
mentioning
confidence: 99%