Characterization of an AgBr–Ag2S–As2S3–HgI2 ion-selective electrode membrane: a X-ray photoelectron and impedance spectroscopy approach
2004; Elsevier BV; Volume: 228; Issue: 1-4 Linguagem: Inglês
10.1016/j.apsusc.2004.01.040
ISSN1873-5584
AutoresBobby Pejcic, Roland De Marco,
Tópico(s)Gas Sensing Nanomaterials and Sensors
ResumoThis paper presents the results of a detailed surface study of a chalcogenide (AgBr–Ag2S–As2S3–HgI2) mercury (Hg(II)) ion-selective electrode (ISE) using X-ray photoelectron spectroscopy (XPS), scanning electron microscopy (SEM) and electrochemical impedance spectroscopy (EIS). EIS has shown that the Hg(II) ISE undergoes a photo-oxidation reaction in the presence of light. By contrast, XPS revealed that the outer surface layer of AgBr–Ag2S–As2S3–HgI2 becomes hydrated and depleted with respect to arsenic on exposure to air/water during membrane preparation/treatment. XPS failed to detect any arsenic compound which may be associated with oxygen, suggesting that the As–O species becomes removed from the surface. The adsorption of mercury (Hg2+) and various ions (i.e., OH−, NO3− and Cl−) have been studied, and a mechanism for their action is proposed. SEM and XPS have revealed that chloride ions undergo specific adsorption onto AgBr sites and the reaction is dictated by kinetic factors, whereas nitrate preferentially reacts with the chalcogenide arsenic component most likely via a redox process. By contrast, EIS revealed a decrease in charge transfer resistance after extended exposure of the AgBr–Ag2S–As2S3–HgI2 membrane in Hg2+ electrolyte, and XPS identified various changes in the surface species. It is proposed that the response mechanism of the chalcogenide Hg(II) ISE membrane involves a combined charge transfer and ion exchange reaction in Hg2+ electrolyte.
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