C. Armanios et al., FRACTIONATION OF SEDIMENTARY HIGHER-PLANT DERIVED PENTACYCLIC TRITERPANES USING MOLECULAR-SIEVES, Organic geochemistry, 21(5), 1994, pp. 531-543
Branched and cyclic alkane components of crude oil and sediments have
been subjected to a liquid chromatography procedure in which a molecul
ar sieve (ultrastable Y) was used as the stationary phase. n-Pentane w
as used as the mobile phase and the fractions eluted from the column w
ere analysed using GC-MS techniques. The compositions of the first two
fractions were markedly different to that of the initial branched and
cyclic alkane mixture, especially when crude oils derived from higher
-plant sources were used. In particular, the pentacyclic terpanes incl
uding bicadinanes, a spirotriterpane, oleananes and taraxastanes were
enriched. Other compounds enriched in these fractions included the cad
inanes and homocadinanes. Isolation of crude oil fractions enriched in
pentacyclic alkanes using this procedure enabled lower concentrations
of bicadinanes to be analysed than was previously possible by applyin
g selective ion detection GC-MS techniques to branched and cyclic alka
ne fractions. Analysis of the fractions enriched in pentacyclic terpan
es from an Indonesian crude oil revealed the presence of previously un
reported C29 and C30 triterpanes. A comparison of mass spectral data,
GC retention behaviours and molecular sieve sorption characteristics o
f these compounds with those of triterpanes of known molecular structu
re was used to suggest structures for the unknown compounds.