Imre Molnár scite author profile

The effect of solute ionization on the retention of weak acids, bases, and ampholytes on octadecylsllica was investlgated both theoretically and experimentally. The retention was attributed l o a reversible association of the solutes with the hydrocarbonaceous ligand of the stationary phase. A phenomenological treatment of the Corresponding equilibria was developed for various types of lonogenic substances. The energetics of the assoclatlon process was analyzed In a rlgorous fashion in the light of the solvophobic theory and a semi-empirical extension of the Debye-Huckel theory to hlgh ionic strength. The predlcted effect of solute loniratlon on the capacity factors was substantiated by experimental data. The observed dependence of the capacity factors on the lonlc strength of the eluent and the hydrophoblc surface of the solute molecules showed good agreement with the theory. The advantages of the technique in the separatlon of biological substances are illustrated.The great majority of biological substances contain ionogenic functions such as carboxylic or amino groups. In most instances, ion exchange chromatography has been the method of choice for the separation of such compounds having similar chemical structure (1,2). Recent developments in high performance liquid chromatography, however, have demonstrated that columns packed with a nonpolar stationary phase, such as octadecylsilica, are also eminently suitable for the separation of weak acids and bases ( 3 ) .Most effort has been focused on the use of "reversed phase" chromatography with eluents containing anionic or cationic surfactants in hydroorganic solvent mixtures; the technique is frequently called "ion-pair" (4, 5 ) or "soap" (6) chromatography. Recently it has been demonstrated (7) that octadecylsilica columns with neat aqueous eluents, which do not contain organic solvents, can also be successfully employed for the separation of polar organic compounds.We have shown ( 3 ) that the physicochemical phenomena underlying the chromatographic process with nonpolar stationary phases can be readily interpreted in the light of the "solvophobic theory" (8-15) and the factors determining solute retention are amenable to an exact theoretical treatment. In this study, the theory is extended to account for the effect of solute ionization on chromatographic retention, both phenomenologically and by a rigorous treatment of the interaction between ionic solutes and the eluent. THEORYThe chromatographic process is viewed as a reversible association of the solute, s, with the hydrocarbonaceous ligand, L, such as an octadecyl function covalently bound to the surface of the stationary phase:The equilibrium constant for the association, KaSSOC, is given by It is assumed that the equilibrium constant of the process with both neutral and ionized solutes is solely determined by solvophobic interactions ( 3 ) , that is, no ionic or hydrogen bonding occurs between the solute and the stationary phase.In this section, we first will present a phenomenological treatment of the...

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Enhancement of retention by ion-pair formation in liquid chromatography with nonpolar stationary phases

Horváth¹,

Melander²,

Molnár³

et al. 1977

Anal. Chem.

411

114

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Computerized design of separation strategies by reversed-phase liquid chromatography: development of DryLab software

Molnár

2002

Journal of Chromatography A

180

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Separation of amino acids and peptides on non-polar stationary phases by high-performance liquid chromatography

Molnár

Horváth

1977

Journal of Chromatography A

326

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Imre Molnár

Solvophobic interactions in liquid chromatography with nonpolar stationary phases

Liquid chromatography of ionogenic substances with nonpolar stationary phases

Enhancement of retention by ion-pair formation in liquid chromatography with nonpolar stationary phases

Computerized design of separation strategies by reversed-phase liquid chromatography: development of DryLab software

Separation of amino acids and peptides on non-polar stationary phases by high-performance liquid chromatography

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