The silicon is much more abundant than any other element, apart from the oxygen. Silicon is found in many dioxide forms and in uncountable variations from the natural silicates. Moreover, many useful organosilicic by-products. Appart from metallic silicides, which are used in big quantities in metallurgy, it forms important commonly used compounds with hydrogen, carbon, halogens, nitrogen, oxygen and sulphur. It is known that silicon forms compounds with 64 out of the 96 stable elements and possibly form silicides with other 18 elements. A colloidal dispersion of silicon in water is used as a coating agent and as ingredient for certain enamels. Melted quartz sands are transformed in silicon glasses which are used in laboratories and chemical plants, as well as in electric insulators. Big silicon crystals are used for piezoelectric glasses. Silicon dioxide is used as raw material to produce elemental silicon and silicon carbide. Photovoltaic cells for direct conversion of solar energy use thin cut slices of simple silicon crystals of electronic grade. Silicon chips are used in integrated circuits. Metallurgic silicon with 98-99% purity is used as raw material in the manufacture of organosilicic and silicon resins, seals and oils. It is a refractory material used in making enamels and pottery.Įlemental raw silicon and its intermetallic compounds are used as alloy integrals to provide more resistance to the aluminium, magnesium, copper and other metals. Silicon is also an important constituent of some steels and a major ingredient in bricks. Silicon is the principal component of glass, cement, ceramics, most semiconductor devices, and silicones, the latter a plastic substance often confused with silicon. It forms various series of hydrides, various halides (many of which contain silicon-silicon bounds) and many series of compounds which contain oxygen, which can have ionic or covalent properties. According to this metallic character, it forms tetrapositive ions and various covalent compounds it appears as a negative ion only in a few silicides and as a positive constituent of oxyacids or complex anions. It’s almost as electropositive as tin and much more positive than germanium or lead. Silicon is similar to metals in its chemical behaviour. Silicon is an intrinsic semiconductor in it’s purest form, although the intensity of its semiconduction is highly increased by introducing small quantities of impurities. Elemental silicon has the physical properties of metalloids, similar to the ones or germanium, situated under it in the group IV of the periodic table. Apart from those stable natural isotopes, various radiactive artificial isotopes are known. Natural silicon contains 92.2% of the isotope 28, 4.7% of silicon 29 and 3.1% of silicon 30. Moreover, pentacoordinated and hexacoordinated silicon compounds are also known. It is usually tetravalent in its compounds, although sometimes its bivalent, and it’s purely electropositive in its chemical behaviour. It’s a metalloid with a marked metallic luster and very brittle. Silicon is the most abundant electropositive element in The Earth’s crust. Silicon - Si Chemical properties of silicon - Health effects of silicon - Environmental effects of silicon Separation and Concentration Purification Request.Plant Inspection & Process Optimalisation.
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