Flow Injection Photochemical Vapor Generation Coupled with Miniaturized Solution-Cathode Glow Discharge Atomic Emission Spectrometry for Determination and Speciation Analysis of Mercury

Abstract: A novel, compact, and green method was developed for the determination and speciation analysis of mercury, based on flow injection photochemical vapor generation (PVG) coupled with miniaturized solution cathode glow discharge-atomic emission spectroscopy (SCGD-AES). The SCGD was generated between a miniature hollow titanium tube and a solution emerging from a glass capillary. Cold mercury vapor (Hg(0)) was generated by PVG and subsequently delivered to the SCGD for excitation, and finally the emission signals … Show more

“…Although there are some reports on the analysis of As, Hg, Se and Sb species by AAS [164,165,166,167] or AES [168,169,170] in recent years, AFS is described to be superior to AAS and similar to ICP-MS regarding sensitivity and linear calibration range for As and Se species in routine analysis. Analytical features such as low detection limits and wide linear calibration ranges, simplicity, lower acquisition and running costs make AFS a suitable atomic detector in speciation studies.…”

Speciation Analysis of Trace Arsenic, Mercury, Selenium and Antimony in Environmental and Biological Samples Based on Hyphenated Techniques

“…Although there are some reports on the analysis of As, Hg, Se and Sb species by AAS [164,165,166,167] or AES [168,169,170] in recent years, AFS is described to be superior to AAS and similar to ICP-MS regarding sensitivity and linear calibration range for As and Se species in routine analysis. Analytical features such as low detection limits and wide linear calibration ranges, simplicity, lower acquisition and running costs make AFS a suitable atomic detector in speciation studies.…”

Speciation Analysis of Trace Arsenic, Mercury, Selenium and Antimony in Environmental and Biological Samples Based on Hyphenated Techniques

“…Given the pressing demand for Hg 2+ detection, at present some traditional methods such as atomic absorption spectrophotometry (AAS), [ 10 ] atomic fluorescence spectroscopy (AFS), [ 11 ] atomic emission spectroscopy (AES), [ 12 ] high‐performance liquid chromatography (HPLC), [ 13 ] and inductively coupled plasma mass spectrometry (ICP‐MS) [ 14 ] have been used. However, shortcomings such as long, time‐consuming, and complicated operational protocols and the use of expensive equipment have limited their extensive application.…”

l‐Cysteine modified silver nanoparticles‐based colorimetric sensing for the sensitive determination of Hg²⁺ in aqueous solutions

“…An innovator compact method based on flow injection photochemical vapor generation (PVG) coupled with miniaturized solution cathode glow discharge atomic emission spectroscopy (SCGD-AES) was developed for the determination of Hg and its species [82]. This novel method combines the small size, independence of compressed gases and low power consumption of SCGD-AES with the simplicity, miniaturization feasibility and green analytical characteristic of PVG.…”

“…This pioneer PVG-SCGD-AES approach results on a 365-fold improvement in Hg(II) LOD (0.2 µg L -1 ) compared to SCGD-AES. The method was validated for water and biological samples including fish and could be extrapolated to other elements [82]. Nickel demonstrated to be an optimum enhancement reagent for the PVG efficiency of Hg(II) and MeHg.…”

“…Under optimized conditions, the addition of nickel (10 mg L −1 ) increased the signal intensity of Hg(II) and MeHg around 1.5 times compared to that without nickel ion. Separative techniques like GC and HPLC could be potentially combined to PVG-SCGD-AES, opening new possibilities for Hg speciation analysis [82].…”

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