Silicon And Germanium

THE elements silicon and germanium are not metals within the usual, intuitive association of the word, nor are they so within a stricter definition based on the electronic binding. Two properties associated with metals are plasticity and high electrical conductivity. These elements crystallize in the diamond cubic structure, an arrangement apparently not very favorable to slip, and are therefore brittle rather than ductile. Their electrical conductivity is not like that of metals the atoms are locked together by the covalent bond, which in pure and perfectly arranged material leaves but few electrons free to act as electrical carriers.† In further contrast to metals, their electrical conductivity can be greatly increased by raising the temperature. Yet silicon and germanium are not ideally nonmetallic. They are hard, solid, and possess a metallic luster. They exhibit that peculiar brand of electrical conductivity conveniently termed "semi- conduction," wherein, as shall be seen, lies much of their importance. Both, but silicon in particular, are important components in real metallic alloys and the methods of their reduction and preparation lie clearly in the province of the metallurgist. From their duality of physical and chemical properties, silicon and germanium, along with such elements as boron, diamond, gray tin, selenium, antimony, and arsenic, are considered semimetals or metalloids. Because of their importance to metallurgy and the im-