CYCLOTRIMERIZATION OF STERICALLY HINDERED ALKYNES IN ULTRAHIGH-VACUUM - TPD OF TERT-BUTYLACETYLENE ON THE REDUCED TIO2(001) SURFACE
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abstract
Cyclization of tert-butylacetylene on reduced TiO2(001) surfaces yields one of the highest carbon-number products observed for thermally driven association reactions in ultrahigh vacuum. The C18-cyclotrimer tri-tert-butylbenzene was the principal product of tert-butylacetylene conversion. The chemistry of tert-butylacetylene was essentially the same as that of alkynes containing less bulky substituents: open chain dimeric as well as hydrogenated monomeric species were observed in addition to the cyclotrimer. Both the dimer and trimer products have been attributed to the formation of metallacyclopentadiene intermediates at surface Ti2+ cations. The total conversion to oligomeric products for tert-butylacetylene was the same as that for methylacetylene, but the more hindered alkyne exhibited a lower trimer dimer ratio. This comparison indicates that the tert-butyl group does not affect the population of the intermediate metallacyclopentadiene species on the surface but does hinder the addition of the third alkyne necessary to produce the cyclotrimer. 1995.
