The study of reversed phases by inverse gas chromatography

Summary The surface properties of three silica-based reversed phases have been studied by inverse gas chromatography. Theoretical deduction indicates that there is a linear relationship between the molar deformation polarisation of the test solute (P_D) and the dispersive interaction energy between the solute and the C18 and non-bonded silica surfaces. The specific interaction energy between the solute molecule and the silica surface (-G^SP) can be measured as the vertical distance between the solute experimental retention data point (RTl_nV_N) and the n-alkane RTl_nV_N vs P_D calibration line. From multiple regression analysis of-G^SP data with proton acceptor solubility parameter {ie290-1} and orientation solubility parameter {ie290-2} as variants, two coefficients can be obtained related to the influence of the residual silanol groups and the trace metal impurities.