from Part IV - A systematic look at mineral groups
Introduction
After the discussion of some of the most common but also the most complex minerals in Chapter 19, we now examine some structurally and chemically very simple compounds that are rare and form only under unusual conditions. In this chapter we discuss minerals of native elements such as graphite (C), diamond (C), copper (Cu), gold (Au) and silver (Ag) and solid solutions of these elements (for instance, Au–Ag and Au–Cu) (Table 20.1). There are also intermetallic compounds with ordered crystal structures that differ from the end members. Often, these intermetallic compounds form during cooling as a result of ordering of high-temperature solid solutions of the same compositions. Some naturally occurring examples of intermetallics are awaruite (FeNi3), wairauite (FeCo), isoferroplatinum (cubic Pt3Fe), tetraferroplatinum (tetragonal PtFe), tulameenite (Pt2FeCu), ferronickelplatinum (Pt2NiFe), hongshiite (PtCu), rustenburgite (Pt3Sn), urvantsevite (PdBi2), auricuprite (Cu3Au), and schachnerite (AgHg). Don't be intimidated – no one will expect you to memorize these names and formulas. They are listed merely to give you an impression of the astonishing variety of intermetallic compounds.
Most of the minerals in this section are very rare. In total, they comprise less than 0.0002 weight% of the earth's crust, and many have been discovered very recently. However, not only are their structures interesting and well known in materials science, they are also of great economic interest. Native gold, platinum, osmium, iridium, and silver are the principal sources for these elements.
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