CONTROL OF ADSORPTION AND SOLUBILITY IN GRADIENT HIGH-PERFORMANCE LIQUID-CHROMATOGRAPHY .1. PRINCIPLES OF SUDDEN TRANSITION GRADIENTS AND ELUTION CHARACTERISTICS OF COPOLYMERS FROM STYRENE AND METHACRYLATES

Proper retention of polymers in high performance liquid chromatography often requires injection into a starting eluent which is not a solvent for the sample under investigation. In this case, the polymer is precipitated at the top of the column. Subsequent gradient elution has to be performed by addition of an eluent with sufficient chromatographic strength and solvent power. In normal phase chromatography, it must be a solvent of high polarity. With the gradient elutions reported so far, polarity and dissolution power were simultaneously increased. The present paper reports the separate control of solvent strength and chromatographic power by applying gradient programs which include sudden addition of a moderately polar solvent. The amount of the latter does not suffice for elution, which is performed by subsequent, controlled addition of a highly polar nonsolvent. Sudden transition gradients of this kind work with, e.g., iso-octane as a nonpolar starting eluent, tetrahydrofuran as a solvent of intermediate polarity, and methanol as a strongly polar nonsolvent. They have been applied to copolymers from styrene and ethyl methacrylate, methyl methacrylate, or methoxyethyl methacrylate.