Thermodynamic background of selectivity shifts in temperature-programmed, constant-density supercritical fluid chromatography

## Abstract When temperature programming is performed in supercritical fluid chromatography (SFC) under conditions where the solute‐mobile phase interactions are approximately fixed, that is, with the use of constant mobile phase density, then positive temperature programs can be used. The results

The theoretical and practical implications of simultaneous temperature/pressure and synchronized density/temperature programming are considered. Examples are shown for separations of dimethylpolysiloxanes where these techniques provide superior separation over their analogous isothermal programming

A technique which allows the a priori determination of optimal density programs for supercriticalfluid chromatography (SFC) is proposed. This new approach is meant to supersede heuristic methods for optimizing molecular resolution in SFC. The analysis is based upon optimal control theory applied to

## Supercritical fluid chromatography, SFC Retention Plate number Resolution Temperature and density effects 3 Results and Discussion With C02 as the mobile phase and unmodified silica as the stationary phase, the capacity ratio of anthracene, FA, is found to 0 1987 Dr.

## Abstract We studied solute retention for __n__‐hydrocarbons, (low‐molecular‐weight) polystyrenes, an ethoxylated surfactant, and a selectivity test mix on open‐tubular columns with methyl‐, biphenyl‐, and cyanopropyl‐substituted stationary phases for pressures up to 680 atm and temperatures up t