Empirical relationship between chiral selectivity and mobile phase modifier properties.
暂无分享,去创建一个
J. Blackwell | J A Blackwell | R W Stringham | D Xiang | R E Waltermire | R. Waltermire | R. Stringham | D. Xiang | R. E. Waltermire
[1] L. J. Brice,et al. Facile separation of the enantiomers of diethyl N-(aryl)-1-amino-1-arylmethanephosphonates on a rationally designed chiral stationary phase , 1996 .
[2] W. H. Pirkle,et al. Facile and predictable means of separating the enantiomers of 5-arylhydantoins , 1997 .
[3] J. Blackwell,et al. Evaluation of the specific intermolecular interactions responsible for chiral selectivity for phenylalanine analogs in subcritical fluid chromatography , 1999 .
[4] K. Lipkowitz. Theoretical studies of brush-type chiral stationary phases , 1994 .
[5] E. Yashima,et al. HPLC enantioseparation on cellulose tris(3,5‐dimethylphenylcarbamate) as a chiral stationary phase: Influences of pore size of silica gel, coating amount, coating solvent, and column temperature on chiral discrimination , 1996 .
[6] A. Tambuté,et al. A comparison of LC and SFC for cellulose‐ and amylose‐derived chiral stationary phases , 1995 .
[7] R. Taft,et al. Study of retention processes in reversed-phase high-performance liquid chromatography by the use of the solvatochromic comparison method. , 1985, Analytical chemistry.
[8] R. Reid,et al. The Properties of Gases and Liquids , 1977 .
[9] Harpreet S. Chadha,et al. Hydrogen bonding. 32. An analysis of water-octanol and water-alkane partitioning and the delta log P parameter of seiler. , 1994, Journal of pharmaceutical sciences.
[10] P. Carr. Solvatochromism, Linear Solvation Energy Relationships, and Chromatography , 1993 .
[11] P. Carr,et al. Effect of Various Modifiers on Selectivity in Packed-Column Subcritical and Supercritical Fluid Chromatography , 1996 .
[12] R. Rosset,et al. Resolution of enantiomeric amides on a Pirkle-type chiral stationary phase. A comparison of subcritical fluid and liquid chromatographic approaches. , 1986, Journal of chromatography.
[13] G. W. Anderson,et al. The Use of Esters of N-Hydroxysuccinimide in Peptide Synthesis , 1964 .
[14] C. Roussel,et al. Investigation into the chiral recognition mechanism of N-arylthiazolin-2(thi)one atropisomers on Chiralcel OJ by factorial design and lipophilicity approaches , 1997 .
[15] D. Armstrong,et al. Theoretical considerations concerning the separation of enantiomeric solutes by liquid chromatography. , 1988, Analytical chemistry.
[16] Milton L. Lee,et al. Addition of methanol to the mobile phase in packed capillary column supercritical fluid chromatography retention mechanisms from linear solvation energy relationships , 1996 .
[17] M. Abraham,et al. The use of characteristic volumes to measure cavity terms in reversed phase liquid chromatography , 1987 .
[18] K. Hatada,et al. Optical Resolving Ability of 3,5-Dimethylphenylcarbamates of Oligosaccharides and Cyclodextrins , 1990 .
[19] C. Poole,et al. Recent advances in solvation models for stationary phase characterization and the prediction of retention in gas chromatography , 1992 .
[20] R. Rosset,et al. Enantiomeric separation of tertiary phosphine oxides on pirkle's chiral stationary phase , 1986 .
[21] C. Reichardt,et al. Solvatochromic Dyes as Solvent Polarity Indicators , 1994 .
[22] Michael H. Abraham,et al. Linear solvation energy relationships. 23. A comprehensive collection of the solvatochromic parameters, .pi.*, .alpha., and .beta., and some methods for simplifying the generalized solvatochromic equation , 1983 .
[23] C. Minguillón,et al. Bonded cellulose-derived high-performance liquid chromatography chiral stationary phases: III. Effect of the reticulation of the cellulose derivative on performance , 1997 .
[24] R. C. Weast. CRC Handbook of Chemistry and Physics , 1973 .