INFLUENCE OF TEMPERATURE ON THE MECHANISM BY WHICH COMPOUNDS ARE RETAINED IN GAS-LIQUID-CHROMATOGRAPHY

被引:57
作者
POOLE, SK [1 ]
KOLLIE, TO [1 ]
POOLE, CF [1 ]
机构
[1] WAYNE STATE UNIV, DEPT CHEM, DETROIT, MI 48202 USA
关键词
D O I
10.1016/0021-9673(94)87012-8
中图分类号
Q5 [生物化学];
学科分类号
071010 ; 081704 ;
摘要
The influence of temperature on the retention mechanism and solvation interactions of 46 varied solutes in 10 representative stationary phases of different polarity within the temperature range of 60 to 140 degrees C is discussed. Gas-liquid partition is shown to the dominant retention mechanism for most solutes with inrterfacial adsorption of increasing importance at low phase loadings, low temperatures and for solutes of different polarity to that of the stationary phase. Guidelines are presented for predicting those conditions for which interfacial adsorption is likely to be a significant retention mechanism. A cavity model is used to characterize the solvation process in terms of the free energy contributions to solvation from the cavity-dispersion interactions and the sum of the remaining polar interactions. As a function of temperature it is shown that the contribution from polar interactions are only weakly temperature dependent over the temperature range studied while the cavity-dispersion interactions term shows a much more significant variation becoming less favorable for solute transfer at higher temperatures. In all cases, the contribution of the cavity-dispersion interactions term is favorable for solute transfer from the gas phase to the liquid phase. Principal component analysis is used to identify the factors contributing to the solvation process and their individual temperature dependence. In the case of the cavity-dispersion interactions term one factor accounts for more than 99.7% of the total variance. Three factors are identified as contributing to the polar interactions term. The first principle component accounts for more than 95% of the total variance at all temperatures and by correlation with other independent scales of dipolarity/polarizability is identified as representing the contribution from orientation and induction interactions. The two remaining principal components are shown to represent hydrogen-bond formation and charge-transfer complexation involving systems with pi-electrons. The temperature dependence of the principal components provides insights into the general role of polar intermolecular interactions on the solvation process and their temperature variation.
引用
收藏
页码:229 / 251
页数:23
相关论文
共 45 条
  • [1] SOLVATION OF GASEOUS NON-ELECTROLYTES
    ABRAHAM, MH
    GRELLIER, PL
    HAMERTON, I
    MCGILL, RA
    PRIOR, DV
    WHITING, GS
    [J]. FARADAY DISCUSSIONS, 1988, 85 : 107 - 115
  • [2] HYDROGEN-BONDING .21. SOLVATION PARAMETERS FOR ALKYLAROMATIC HYDROCARBONS FROM GAS-LIQUID-CHROMATOGRAPHIC DATA
    ABRAHAM, MH
    WHITING, GS
    [J]. JOURNAL OF CHROMATOGRAPHY, 1992, 594 (1-2): : 229 - 241
  • [4] HYDROGEN-BONDING .28. COMPARISON OF THE SOLVATION THEORIES OF ABRAHAM AND POOLE, USING A NEW ACIDIC GAS-LIQUID-CHROMATOGRAPHY STATIONARY-PHASE
    ABRAHAM, MH
    ANDONIANHAFTVAN, J
    HAMERTON, I
    POOLE, CF
    KOLLIE, TO
    [J]. JOURNAL OF CHROMATOGRAPHY, 1993, 646 (02): : 351 - 360
  • [5] HYDROGEN-BONDING .13. A NEW METHOD FOR THE CHARACTERIZATION OF GLC STATIONARY PHASES - THE LAFFORT DATA SET
    ABRAHAM, MH
    WHITING, GS
    DOHERTY, RM
    SHUELY, WJ
    [J]. JOURNAL OF THE CHEMICAL SOCIETY-PERKIN TRANSACTIONS 2, 1990, (08): : 1451 - 1460
  • [6] HYDROGEN-BONDING .17. THE CHARACTERIZATION OF 24 GAS-LIQUID-CHROMATOGRAPHIC STATIONARY PHASES STUDIED BY POOLE AND COWORKERS, INCLUDING MOLTEN-SALTS, AND EVALUATION OF SOLUTE STATIONARY PHASE INTERACTIONS
    ABRAHAM, MH
    WHITING, GS
    DOHERTY, RM
    SHUELY, WJ
    [J]. JOURNAL OF CHROMATOGRAPHY, 1991, 587 (02): : 229 - 236
  • [7] HYDROGEN-BONDING .16. A NEW SOLUTE SOLVATION PARAMETER, PI-2(H), FROM GAS-CHROMATOGRAPHIC DATA
    ABRAHAM, MH
    WHITING, GS
    DOHERTY, RM
    SHUELY, WJ
    [J]. JOURNAL OF CHROMATOGRAPHY, 1991, 587 (02): : 213 - 228
  • [8] HYDROGEN-BONDING .15. A NEW CHARACTERIZATION OF THE MCREYNOLDS 77-STATIONARY PHASE SET
    ABRAHAM, MH
    WHITING, GS
    DOHERTY, RM
    SHUELY, WJ
    [J]. JOURNAL OF CHROMATOGRAPHY, 1990, 518 (02): : 329 - 348
  • [9] THERMODYNAMIC STUDY OF THE BEHAVIOR OF 2 MOLTEN ORGANIC SALTS AS STATIONARY PHASES IN GAS-CHROMATOGRAPHY
    ARANCIBIA, EL
    CASTELLS, RC
    NARDILLO, AM
    [J]. JOURNAL OF CHROMATOGRAPHY, 1987, 398 : 21 - 29
  • [10] BEREZKIN VG, 1991, GAS LIQUID SOLID CHR