Volume 66, 1970

Photolysis of tetramethylstannane vapour at 185 nm

Abstract

The study was made in a static mercury-free, system using a low-pressure mercury arc. At 25°C the major gaseous product is ethane; some methane is formed with traces of other hydrocarbons. Solid polymer and metallic tin deposit on the cell window. The decomposition increases with temperature and at 150°C several other tin alkyls were found in the products. The quantum yields at 25°C are C2H6, 1.75 and CH4, 0.05. They are reduced by addition of nitrogen or carbon dioxide. Nitric oxide reduces the ethane yield to nearly zero but does not affect the methane yield.

The major primary reaction is Sn(CH3)4+hν(λ= 185 nm)→ Sn(CH3)+3CH3(ϕ= 0.95). The methyl radicals combine to form ethane, tin and polymer or abstract either (a) hydrogen or (b) another methyl radical from the alkyl. The rate constants are log10(ka/l.mol–1s–1)= 8.07–34.1 kJ/2.3 RT and log 10(kb/1.mol–1s–1)= 4.41–5.5 kJ/2.3 RT. At longer wavelengths (λ∼220. nm) only two methyl radicals are detached in the primary reaction and no metallic tin is formed. The effect of added gases is to deactivate by collision one of the two excited state precursors of the breakdown.

Article information

Article type
Paper

Trans. Faraday Soc., 1970,66, 2286-2296

Photolysis of tetramethylstannane vapour at 185 nm

P. Borrell and A. E. Platt, Trans. Faraday Soc., 1970, 66, 2286 DOI: 10.1039/TF9706602286

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