Determination limits in high-performance liquid chromatography of plant phenolic compounds with an ultraviolet detector

Abstract

The capabilities of high-performance liquid chromatography (h.p.l.c.) for the determination of phenolic compounds in 80% ethanol extracts from plant material are described. A reversed-phase column was used and elution was done with a linear gradient from 0.01 M phosphoric acid up to methanol. The efficiency of the method was studied via determination limits, defined as the minimum concentration of a compound (μg of compound per gram of extracted dry plant material) necessary to provide 90% probability that the relative error on the determination of the compound in an extract from a plant sample taken at random is < 10%. These limits take into account matrix interferences as a source of error, and were calculated with a minicomputer for the determination of 19 phenolic compounds in plant extracts. For good determinations, the concentrations of the components should be in the range 1–10 mg g −1 of dry plant material. Separating the extracts into different chemical groups (on ion-exchange materials) prior to h.p.l.c. decreases the determination limits about five times. The dependence of determination limits on the u.v. characteristics of the compound, the sample clean-up, and the column characteristics are discussed quantitatively by means of a simple empirical equation.