反相液相色谱中溶质保留与溶剂化结构参数间的定量关系

本文研究了等度条件下反相液相色谱中溶质保留与溶剂化结构参数间的定量关系;考察了反相液相色谱保留值变化规律式lnk'=a+cC~b中参数a.c 与溶剂化结构参数间的定量关系,结果表明能较好地预测等度和不同冲洗剂组成下溶质的保留值,将乙腈-水和甲醇-水冲洗剂下的a.c值定量关联,表明在考虑溶质的氢键作用参数后,其相关性有所提高.     

反相液相色谱中溶质保留与溶剂化结构参数间的定量关系

本文研究了等度条件下反相液相色谱中溶质保留与溶剂化结构参数间的定量关系;考察了反相液相色谱保留值变化规律式lnk'=a+cC~b中参数a.c 与溶剂化结构参数间的定量关系,结果表明能较好地预测等度和不同冲洗剂组成下溶质的保留值,将乙腈-水和甲醇-水冲洗剂下的a.c值定量关联,表明在考虑溶质的氢键作用参数后,其相关性有所提高.     

采用反相液相色谱作用指数进行已知保留值定性的研究

本文从理论上提出了采用反相液相色谱作用指数进行已知保留值定性的方法,该方法是建立在反相液相色谱保留值基本方程Ink′=a+cC_B的基础上,通过建立各类样品标准的a,c指数库来实现保留值的预测,从而达到定性的目的,在定性过程中利用了参数a,c之间的线性关系以及双柱之间的a-a线性关系,在此基础上给出了一些典型的实例来验证这种定性方法的正确性。     

气相色谱与液相色谱保留值的换算方法

根据色谱热力学理论,在色谱保留值公式统一形式的基础上导出了气相色谱保留系数（I）与反相液相色谱保留公式参数a,c之间的关系式,证明结构类似化合物的a,c值与保留指数呈线性关系,同时存在氢键作用能、偶极矩作用的影响,从而提出了色相色谱与反相液相色谱保留值换算的方法;该理论为氯代芳烃的文献数据所证实。     

反相液相色谱保留值的预测模式

液相色谱保留值的预测一直是色谱领域里研究最为活跃的领域之一,寻找一种以最少系数求算和预测色谱保留值是色谱工作者的长期研究的目标,但目前,仍没有真正的预测方法。我们在液相色谱保留值基本方程的基础上,曾对不同C_(18)的担体上的保留规律进行过研究,并从中引入了溶质lnk′=A C·C_B BlnC_B (1)作用指数的概念,作用指数即为方程(1)中的参数C(参数B在反相色谱中忽略),CB为二元冲洗剂中强冲洗组分的浓度。本文从溶质的作用指数出发来探讨反相液相色谱保留值的预测模式。     

从分子微观参数预测反相色谱保留值方程系数

在考虑氢键作用能随流动相组成改变的情况下,重新推导了液相色谱保留值方程,进而得到液相色谱保留值方程系数与分子微观参数之间的关系。在分子母体结构相同条件下,提出采用五个系数预测反相色谱保留值的方法,并用文献数据给予验证。     

两种带有不同间隔臂的环糊精键合固定相保留行为的评价

选取14种模型化合物对两种带有不同间隔臂的环糊精键合固定相(Click Alkyl-CD、Click OEG-CD)进行了反相液相色谱模式下的保留行为评价。通过梯度洗脱条件下保留参数计算方法和CSASS软件,根据3次线性梯度的保留值数据,测出14种溶质分子在两种固定相上的保留参数,在此基础上考察流动相含乙腈浓度与保留因子的关系后发现,Click Alkyl-CD和Click OEG-CD在分离非极性和中等极性化合物时主要基于反相液相色谱模式,而某些化合物(如吲唑)在Click OEG-CD上的保留受多种作用力影响,并不基于反相液相色谱模式。疏水性评价结果表明,反相分离模式下Click Alkyl-CD的保留参数和正辛醇-水分配常数的相关性较好(R=0.7),说明其具有比较强的疏水性;而Click OEG-CD的相关性不高(R＜0.3),说明疏水作用力以外的其他作用力对化合物在反相模式下的保留影响较大。     

高效液相色谱不同C18填料保留规律的研究

]本文在液相色谱保留值基本方程lnk'=A+BCB+ClnCB的基础上,研究了不同C18担体的保留值规律。研究表明：参数C在反相色谱中影响很小,参数B—作用指数对给定的溶质、冲洗剂体系下是常数而不随C18担体变化;而参数A则随C18键合量的增加而增加,在此基础上,在比较宽的浓度范围内预测了不同C18担体上的保留。     

反相液相色谱法用于结合型胆汁酸选择性变化规律的研究

］在反相液相色谱保留值基本方程logk'=＋玞cCb的基础上,本文从理论和实验上证明了甘氨型和牛磺型结合胆汁酸的参数c之间分别存在很好的线性关系,且相互平行。这种平行的c线性关系表明：在给定的冲洗剂浓度下,甘氨和牛磺型给合型胆汁酸的选择性因子为不随保留值变化的常数,甘氨型和牛磺型胆汁酸的参数c或之间的差值c或为常数,每对甘氨型和牛磺型胆汁酸的logk'与Cb的线性关系都相交在同一点上。     

反相液相色谱结合型胆汁酸的选择性变化规律

本文报道了反相液相色谱(RP-HPLC)和离子对反相液相色谱甘氨型(G)和牛磺型(T)结合胆汁酸的选择性变化规律,首次发现在给定冲洗剂浓度下,G、T对结合型胆汁酸的选择性因子或结合型选择性为常数。本文同时还在反相液相色谱保留值基本方程的基础上讨论了G、T对选择性变化规律的理论依据。     

A New Equation for Solute Retention in Liquid Chromatography

In consideration of the adsorption of solvent, diluent and solute molecules on the surface of a stationaryphase, a new equation for solute retention in liquid chromatography is presented. This equation includesthree parameters: the displacement equilibrium constant (Ksd) between the solvent and diluent molecules onthe surface of the stationary phase, the total number(N) of the solvent and diluent molecules released fromthe stationary phase after one solute molecule being adsorbed, and the parameter (I) related to the thermody-namic equilibrium constant for the solute adsorption on the stationary phase. Over the whole concentrationrange of the solvent in the mobile phase, the experimental retention data can be well described by this equa-tion, parameters K~, N and I can be obtained by the regression analysis of the experimental retention data,and consequently the number of the solvent and the diluent molecules displaced by one solute molecule fromthe stationary phase can also be derived at different solvent concentrations in the mobile phase,     

反相液相色谱中计量置换线性参数logI的热力学特征

 依据液相色谱中溶质计量置换保留模型及线性参数logI(与1mol溶质对固定相的亲和势大小有关的常数),通过作图得知非极性和极性小分子溶质及生物大分子的logI与绝对温度的倒数1/T,以及小分子溶质的logI与其在正辛醇-水中分配系数的对数logPo/w呈线性关系,从两方面进一步证明了logI具有热力学平衡常数的性质。基于小分子溶质、生物大分子的logI和分配系数大小的差别,对两者在反相液相色谱中的保留对柱长的依赖关系给予了定量的说明。     

反相液相色谱中计量置换线性参数logI的热力学特征

依据液相色谱中溶质计量置换保留模型及线性参数 log I(与 1mol溶质对固定相的亲和势大小有关的常数 ) ,通过作图得知非极性和极性小分子溶质及生物大分子的 log I与绝对温度的倒数 1/T,以及小分子溶质的log I与其在正辛醇 -水中分配系数的对数 log Po/ w呈线性关系 ,从两方面进一步证明了 log I具有热力学平衡常数的性质。基于小分子溶质、生物大分子的 log I和分配系数大小的差别 ,对两者在反相液相色谱中的保留对柱长的依赖关系给予了定量的说明     

On the chromatography mechanism of reversed-phase liquid chromatography

Summary An equation is derived which can describe how the retention of solutes is influenced by the composition of the mobile phase in reversed-phase liquid chromatography, the retention of solutes in alkyl bonded stationary phase regarded as the complexation between solute molecule and the active sites on the surface of the stationary phase. When the stationary phase is not fully saturated by the organic modifier, the activity of the active sites, the activity coefficient of the adsorbed solute as well as the activity coefficient of the solute in the mobile phase depend on the composition of the mobile phase. However, when the stationary phase is fully saturated, the composition of the mobile phase mainly influences the activity coefficient of the solute in the mobile phase. In addition, the selectivity of retention is discussed in terms of the derived equation.     

Study of retention parameters obtained in RP-TLC system and their application on QSAR/QSPR of some alpha adrenergic and imidazoline receptor ligands

The retention constant (R(0)(m)) is determined for 11 selected adrenergic and imidazoline receptor ligands by reverse-phase-thin layer chromatography. It is established that the retention behavior of investigated compounds mostly depends on geometrical, electrostatic, and hydrogen bonding properties. Good correlations among hydrophobic parameters R(0)(m) versus log P for all eleven tested compounds are obtained. The satisfactory correlations are found between R(0)(m) versus apparent partition coefficient octanol-buffer pH 7.4 (log P') or apparent partition coefficient in four liposome systems (log K'(M)) and hypotensive activity (pC(25)) for five imidazolines. The results confirm the suitability of this parameter in quantitative structure-property and structure-activity relationships studies of these drugs.     

Retention behavior of o-phthalic, 3-nitrophthalic, and 4-nitrophthalic acids in ion-suppression reversed-phase high performance liquid chromatography using acids instead of buffers as ion-suppressors

In reversed-phase high performance liquid chromatography, the logarithm of the retention factor, log k, is usually correlated with the logarithm of the octanol-water partition coefficient, log Kow. The k and Kow of an ionizable analyte are greatly influenced by the mobile phase pH. In this paper, log kw of diprotic o-phthalic, 3-nitrophthalic, and 4-nitrophthalic acids, are obtained by extrapolation to pure aqueous fraction of mobile phase in ion-suppression reversed-phase high performance liquid chromatography with acetic acid and perchloric acid as the ion-suppressors. The Kow values of the three analytes are calibrated according to the apparent octanol-water partition coefficient, Kow, under different pH conditions, and the log K"ow values show a much better correlation with log kw than do log Kow. The influences of two ion-suppressors, acetic and perchloric acids, on the retention behavior of these diprotic acids at different pH are contrasted. An abnormal trend is found in the k vs. pHw plot of the acetic acid system when the methanol content is low. A possible reason is that acetic acid is an even stronger organic modifier than methanol, besides being an ion-suppressor. The results make the selection of mobile phase for the separation of acidic compounds by ion-suppression reversed-phase high performance liquid chromatography direct, accurate, and practical.