A linear gradient sequential injection chromatography method exploiting programmable fluidics for the determination of three methylxanthines.

This work describes a novel sequential injection chromatography (SIC) method combined with linear gradient elution for the separation and determination of three main methylxanthines (theobromine, theophylline and caffeine) using a short C18 monolithic column. The method utilizes a hybrid manifold which exploits zone fluidics for solution manipulation and programmable fluidics for the implementation of a two-solvent linear gradient elution protocol. This approach offers a high degree of automation and enables faster separation of the three target methylxanthines with respect to isocratic elution as well as better chromatographic efficiency. The limits of detection of the three methylxanthines ranged from 0.18 to 0.45 μmol L−1, the instrumental repeatability (at the 10 μmol L−1 level of the target compounds, n = 6) was ≤2% and the separation time was 3.3 min. The SIC method was validated and applied to the analysis of coffee, chocolate and tea samples. Image 1 • A linear gradient sequential injection chromatography approach was developed. • Linear gradient elution was implemented using programmable fluidics. • The method was applied to the determination of three methylxanthines. • The methodology presents distinct advantages over the isocratic elution mode. • The method proved accurate, precise, robust and fit-for-purpose. [ABSTRACT FROM AUTHOR]