Semiconductor photocatalysis cadmium sulfide

Heterogeneous Photocatalysis. Heterogeneous photocatalysis is a technology based on the irradiation of a semiconductor (SC) photocatalyst, for example, titanium dioxide [13463-67-7] Ti02, zinc oxide [1314-13-2] ZnO, or cadmium sulfide [1306-23-6] CdS. Semiconductor materials have electrical conductivity properties between those of metals and insulators, and have narrow energy gaps (band gap) between the filled valence band and the conduction band (see Electronic materials Semiconductors). 

Hydrazone cyclization and hydroalkylation [138-140] are rare examples of reactions conducted on a preparative scale, since the products were isolated in milligram amounts and not just identified in solution. As already mentioned in Section 6.2.5, photocorrosion of the semiconductor photocatalyst often prevents its use in preparative chemistry. This is very true also for colloidal semiconductors although the pseudo-homogeneous nature of their solutions allows one to conduct classical mechanistic investigations, until now they were too labile to be used in preparative chemistry [107, 141, 142]. In contrast to the above-mentioned reactions, in recent years we have isolated novel compounds on a gram-scale employing photostable zinc and cadmium sulfide powders as photocatalysts [97, 107, 143-145]. During this work we found also a new reaction type which was classified as semiconductor photocatalysis type B [45]. In contrast to type A reactions, where at least one oxidized and one reduced product is formed, type B reactions afford only one unique product, i.e., the semiconductor catalyzes a photoaddition reaction (see below). 

Hopfner, M., Weiss, H., Meissner, D., Heinemann, F. W., Kisch, H., Semiconductor Photocatalysis Type B Synthesis of Unsaturated a Amino Esters from Imines and Olefins Photocatalyzed by Silica supported Cadmium Sulfide, Photochem. Photobiol. Sci. 2002, 696 703. 

Cadmium sulfide (CdS) is a direct n-type semiconductor with a band gap of about 2.4 eV and large absorption coefficient of 4 x lO" cm . Therefore, it is an attraetive material for application in thin-film photovoltaic cell, photocatalysis and solid state opties. 

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