33 telluride

Tellurides.—Since many of these compounds will have been dealt with elsewhere in this volume, only a very brief treatment will be given in this 

Furuseth, L. Brattas, and A. Kjekshus, Acta Chem. Scand., 1973, 27, 2367. 

Bontschewa-Mladenowa, N. Aramov, and D, Rajkowa, Z. anorg. Chem., 1973,401, 306. 

Et02CN=NC02Et, PPh3 silica gel, microwave oven 

A neutron-scattering study of the alloy Gej gTe 825 the amorphous and liquid states has shown that a change in co-ordination number from 2.43 to 3.25 takes place on melting. In the liquid state the observed co-ordination number can be fitted by assuming four-fold co-ordination of Ge and threefold co-ordination of Te, whilst in the amorphous state four-fold co-ordination of Ge and two-fold co-ordination of Te is assumed. The dependence of the structure of thin films of (SnTe)i (PbSe)a, and (SnTe)j (PbTe)a on the phase composition (0 x 1) and on the conditions of preparation has been reported. Thermochemical data have been obtained for alloys of tellurium with tin and lead over the whole reinge of concentrations. 

Phase relationships in the following systems have been studied Ge-Te and Pb-Te,536 As-Ge-Si-Te and GeSi-Te. ae CdTe-Sn. s and PbTe-MgTe 

Decomposition by alkalis takes place with the formation of elemental tellurium. 

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Kidder L H, Levin I W, Lewis E N, Kleiman V D and Heilweil E J 1997 Mercury cadmium telluride focal-plane array detection for mid-infrared Fourier-transform spectroscopic imaging Opt. Lett. 22 742-4... 

Monolayers can be transferred onto many different substrates. Most LB depositions have been perfonned onto hydrophilic substrates, where monolayers are transferred when pulling tire substrate out from tire subphase. Transparent hydrophilic substrates such as glass [18,19] or quartz [20] allow spectra to be recorded in transmission mode. Examples of otlier hydrophilic substrates are aluminium [21, 22, 23 and 24], cliromium [9, 25] or tin [26], all in their oxidized state. The substrate most often used today is silicon wafer. Gold does not establish an oxide layer and is tlierefore used chiefly for reflection studies. Also used are silver [27], gallium arsenide [27, 28] or cadmium telluride wafer [28] following special treatment. 

Selenium and tellurium react similarly, forming selenides and selenates(IV), and tellurides and tellurates(IV) respectively. Like the sulphide ion, S , the ions Se and Te form polyanions but to a much lesser extent. 

Hydrogen selenide (selenium hydride), HjSe, and hydrogen telluride (tellurium hydride), HjTe... 

These two gases can readily be prepared by the action of acids on selenides and tellurides respectively, the reactions being analogous to that for the preparation of hydrogen sulphide. 

These closely resemble the corresponding sulphides. The alkali metal selenides and tellurides are colourless solids, and are powerful reducing agents in aqueous solution, being oxidised by air to the elements selenium and tellurium respeetively (cf. the reducing power of the hydrides). 

Tellurium is occasionally found native, but is more often found as the telluride of gold (calaverite), and combined with other metals. It is recovered commercially from the anode muds that are produced during the electrolytic refining of blister copper. The U.S., Canada, Peru, and Japan are the largest Free World producers of the element. 

Tellurium improves the machinability of copper and stainless steel, and its addition to lead decreases the corrosive action of sulfuric acid on lead and improves its strength and hardness. Tellurium is used as a basic ingredient in blasting caps, and is added to cast iron for chill control. Tellurium is used in ceramics. Bismuth telluride has been used in thermoelectric devices. 

Sanskrit Jval Anglo-Saxon gold L. aurum, gold) Known and highly valued from earliest times, gold is found in nature as the free metal and in tellurides it is very widely distributed and is almost always associated with quartz or pyrite. 

Heavy water, see Hydrogen[ H] oxide Heazlewoodite, see rn-Nickel disulfide Hematite, see Iron(III) oxide Hermannite, see Manganese silicate Hessite, see Silver telluride Hieratite, see Potassium hexafluorosilicate Hydroazoic acid, see Hydrogen azide Hydrophilite, see Calcium chloride Hydrosulfite, see Sodium dithionate(III)... 

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