Abstract
Native gold grains sampled at two different gold ore deposits in Eastern Russia have been studied by the techniques of electron spectroscopy (X-ray photoelectron spectroscopy (XPS) and Auger electron spectroscopy (AES)), electron microprobe analysis (EMPA), and scanning electron microscopy with energy dispersive X-ray spectrometry (SEM-EDX). The high-fineness gold of the deposit hosted by relatively high temperature gold-quartz-sulfide mesothermal ore formation contains no oxidized Au constituents on grain surfaces, whereas the less fine gold of the epithermal Au-Ag deposit contains gold oxidized to the Au (I) state, or higher, in half of the cases. At this deposit the surface of native Au consists of a thin layer (~15 nm) with elevated Ag and S contents and an underlying SiO2–containing layer ~30–60 nm thick. Such a composite coating can perform a protective function and prevent the gold-silver sulfides in surficial parts of AuAg grains from oxidation. The sulfur-enriched marginal parts of native gold particles do not always correlate with the stoichiometry of well-known binary AuAg-sulfides and have a variable composition. This may be due to the existence of solid solutions, Ag2−xAuxS, if there is enough S or S adsorption-stabilized cluster agglomerates, AgnAumS, under sulfur deficit. The effect of the formation of nano-scale surficial zonality on the surface of native gold is quite common in nature and applicable to geological exploration and technology of gold-ore processing. It can facilitate establishing the geochemical environment and genetic type of Au mineralization.
Highlights
The problem of gold and its alloys’ corrosion is of interest in several aspects
The samples of native gold were studied by surface electron spectroscopy (XPS and Auger electron spectroscopy (AES)); electron microprobe analysis (EMPA), and scanning electron microscopy with energy-dispersive spectrometry (SEM-EDX)
EMPA with wave-dispersive spectrometers (WDS) allowed quantitative analysis, it is unable to give reliable information in the range of very thin grain rims enriched in sulfur
Summary
The problem of gold and its alloys’ corrosion is of interest in several aspects. In terms of genetic mineralogy, the composition of the surface of nugget gold might be indicative of the processes it went through and of their conditions. In terms of raw ore processing technology, it is important to know the chemical composition of the gold grain surface to select the most efficient flotation agent [1]. The presence of sulfur compounds on the surface of gold particles makes them less amenable to flotation, affecting ore concentration indices [2]. Gold parts used in electronic microcircuits might be subject to surface changes entailing far-reaching consequences for their quality. The activity of catalysts containing Au and its alloys with other metals depends heavily on the surface condition [3]
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