Proceedings ArticleDOI
Dusty plasmas for on-site spectroscopic analysis of water sources
John W. Sweeney,Chester G. Wilson +1 more
- Vol. 7484, pp 748404
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TLDR
In this paper, a low-cost, borosilicate glass-based spectroscopic sensor for the detection of water contaminants is presented, where 10 P L water samples are inserted into a sandblasted sample re servoir in a borosile glass substrate and are partially evaporated with a 200 nm thin-film Cr microheater/cathode patterned to the bottom of the reservoir.Abstract:
This paper reports on a low-cost, borosilicate glass-based spectroscopic sensor for the detection of water contaminants. 10 P L water samples are inserted into a sandblasted sample re servoir in a borosilicate glass substrate and are partially evaporated with a 200 nm thin-film Cr microheater/cathode patterned to the bottom of the reservoir. The relative contaminant concentration within the partially evaporated sample is greater, providing a means of measuring lower concentrations of impurities. An on-chip plasma discharge is stuck to the sample, sputtering the water contaminants into the discharge, doping its spectral emissions. Cu and Fe impurities are detected at 10 ppm in a 2.5% HNO 3 solution and Ca and Mg contaminants are detected at 100 ppm. The on-chip microheater yields temperature changes as high as 96 qC when supplied with 100 mA. Multiple single-use sensors can be fabricated inexpensively on the borosilicate glass substrate using simple, standard photolithography techniques. Keywords: plasma spectroscopy, atomic emission spectroscopy, on-site water monitoring, metal ion water contaminants, metal ion water impurities, field-portable devicesread more
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An integrated plasma spectroscopic and capacitive sensing platform for water quality diagnostics
TL;DR: In this paper, a field portable water diagnostic system with dual miniaturized plasma spectroscopic and capacitive sensing elements is presented, which can be used to estimate a contaminant's concentration as a function of the film's capacitance.
References
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Journal ArticleDOI
A molecular emission detector on a chip employing a direct current microplasma
TL;DR: In this article, an optical emission detector is presented realized on a glass chip, which employs a direct current helium plasma for molecular fragmentation and excitation, using the plasma as an excitation source, using a detection limit of 3 × 10-12 g/s (600 ppm) by observing the emission of the CH radical.
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Spectral detection of metal contaminants in water using an on-chip microglow discharge
TL;DR: In this article, a liquid electrode spectral emission chip (LEd-SpEC) was developed to detect trace contaminants in water by spectroscopy of micro glow discharges that operate in air or at moderate vacuum using liquid electrodes.
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An atmospheric pressure dc glow discharge on a microchip and its application as a molecular emission detector
TL;DR: In this article, the scaling theory for direct current glow discharges predicts that normal discharges can exist at atmospheric pressure in microscale discharge tubes, and the validity of this theory is demonstrated by the creation of an atmospheric helium plasma in a nanoliter-size discharge chamber on a microchip.
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Zhe Jin,Yongxuan Su,Yixiang Duan +2 more
TL;DR: A low-power, plasma source-based, portable molecular emission detector based on a pulsed-plasma source operated at atmospheric pressure for molecular fragmentation and excitation that is very promising for organic vapor detection.
Journal ArticleDOI
Microfluidic electrodischarge devices with integrated dispersion optics for spectral analysis of water impurities
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