The Retention of Six-, Seven-, Eight-, and Twelve-Membered Ring Molecules of Type SexS y in Reversed-Phase HPLC. Prediction of Retention for Unknown SexS y Heterocycles and Analysis of Sulfur-Selenium Melts

Abstract

The HPLC retention times of 25 cyclic compounds of type Se_xSy, (x = 0 · · · 8; y = 0 · · · 12) have been measured under identical conditions and are used to evaluate the factors which determine the retention. Linear relationships are derived for the dependence of retention (Ink'; k′ = capacity factor) on ring size, number of Se atoms, and number of SeS bonds per molecule for six-, seven-, eight-, and twelve-membered Se_xS_y rings. These relationships allow the prediction of retention times for all Se_xS_y heterocycles of these ring sizes (ca. 100 compounds). The results are applied to the qualitative analysis of mixed sulfur-selenium melts of two compositions: at a molar ratio of S : Se = 8.7 twenty-one HPLC signals have been observed for the CS₂ extract of the quenched melt and assigned to Se_xS_y rings of sizes 6··· 12. At S : Se = 0.33 mainly six-, seven-, and eight-membered species with cumulated Se atoms have been found.