Chromatography of substituted benzoic acids with methanol-water-carbon dioxide mixtures.

The impact of the proportion of CO2 concentration in methanol-water-CO2 mobile phases on the separation of several substituted benzoic acids was explored by studying the variation of retention with mobile phase pH in these mixtures. As the amount of CO2 in methanol-aqueous buffer-CO2 mixtures increased, a more basic buffer was needed to control the dissociation of these acids. Differences in terms of retention, separation efficiency and peak asymmetry were shown for substituted benzoic acids with methanol-water-CO2 and methanol-aqueous buffer-CO2 mixtures. Variations of these chromatographic parameters with mobile phase pH were related to the dissociation of these acids and their interaction with methanol-aqueous buffer-CO2 mobile phases and the stationary phase. The addition of a buffer into methanol-aqueous solution-CO2 was an effective means to optimize separations of acidic analytes with high fluidity liquid mobile phases. The substituted benzoic acids had baseline separation in the least amount of time using the high fluidity liquid mobile phases.     

烷基吡啶盐和芳基季铵盐作检测和改性剂的羟基酸间接光度高效液相色谱研究

研究了苄基三甲基溴化铵动态改性、十四烷基吡啶盐等“永久性”涂渍的两种反相色谱,系统分离和间接光度检测了强极性、弱紫外吸收羟基酸。测定这些检测和改性试剂在YWG-CH反相填料和甲醇-磷酸缓冲液色谱体系的吸附等温线,探讨试剂在固定相的吸附量和其它因素对羟基酸保留、检测灵敏度的影响及分离检测机理。     

Effect of 18-Crown-6 on the Separation Selectivity of Organic Compounds by Reversed-Phase High-Performance Liquid Chromatography

The effect of the addition of 18-crown-6 to the water–methanol and water–acetonitrile mobile phase on the selectivity of the separation of different derivatives of phenol, aniline, and benzoic acid by reversed-phase high-performance liquid chromatography was studied. It was demonstrated that the retention of compounds with the protonated primary amino group is increased in the presence of 18-crown-6 in the eluent, which can be explained by complexation between analyte compounds and macrocycles. For compounds containing the hydroxyl group (phenol and its derivatives), the addition of 18-crown-6 to the mobile phase leads to some decrease in retention. It was demonstrated that the selectivity of 18-crown-6 can change depending on the nature of the positional isomer (ortho, meta, orpara) of the analyte and the nature of the solvent increasing or decreasing the complexing ability of the sorbate with the macrocycle. The effect of the concentration of crown ether on the retention of compounds with the protonated amino group was revealed, and the complexation mechanism was suggested.     

Isocratic Separation of Some Food Additives by Reversed Phase Liquid Chromatography

In recent years, concern about food safety has been growing. The use of food additives in different countries is limited by specific regulations. Therefore, analytical methods that simultaneously determine artificial sweeteners and preservatives are advantageous. High performance liquid chromatography has been the most popular choice for the determination of food additives. In this study, reversed-phase liquid chromatography was developed for the separation of α-aspartame, sodium saccharin, acesulfame-K, vanillin, sorbic acid and benzoic acid. The effects of the proportion of the organic modifier on the chromatographic separation were investigated in order to separate these additives. The results showed that optimum chromatographic separation for these compounds takes place when the acetonitrile content in the mobile phase was 15% containing ammonium acetate buffer (0.005 M). It was concluded that the best separation was obtained with YMC-ODS pack column by using this mobile phase at pH 4.0. All additives were separated within 40 min. The RP-HPLC-UV method was validated in terms of LOD/LOQ, linearity, recovery and repeatability. This method was used for the determination of α-aspartame, acesulfame-K and benzoic acid in cola and instant powder drinks.     

The Efficiency of Substance Separation in Countercurrent Liquid Chromatography

The effect of hydrodynamic parameters and the specific features of instrument design on the efficiency of substance separation in countercurrent liquid chromatography (CCC) was studied using a constant retention factor of the stationary phase in the column. The study was conducted with the separation of benzyl alcohol and p-cresol in a two-phase liquid system heptane–ethyl acetate–methanol–water (1.4 : 0.6 : 1 : 1) in as an example. It was shown that the peak resolution is improved with an increase in the rotational speed of the column and a decrease in the flow rate of the mobile phase. The best peak separation was attained using columns for which the ratio of the column rotation radius to the radius of column revolution was 0.615. It was shown that countercurrent chromatography allows the separation of substances with low partition constants (K < 1) in dilute solutions. The volume of the test sample may be up to 15% of the total volume of the chromatography column.     

Occurrence and behavior of system peaks in RP HPLC with solely aqueous mobile phases

System peaks are important but often also disturbing phenomena occurring in separation systems. Behavior of system peaks was studied in reversed phase high performance liquid chromatography (RP HPLC) systems consisting of an RP Amide C16 column and aqueous solutions of organic acids with alkaline metal hydroxides as mobile phases. Binary mobile phases, composed of benzoic acid and lithium hydroxide (LiOH) or cesium hydroxide (CsOH), yielded two system peaks. The first peak was stationary and the second one moved with dilution of the mobile phase or with changes of the alkaline metal hydroxide concentration. The latter changes affected dissociation of the benzoic acid present in the mobile phase and thereby its retention. The presumption that the first system peak is not influenced by the type of alkaline metal cation and that it is related to the non‐adsorbed component of the mobile phase was confirmed by a cyclic procedure. Three‐component mobile phases composed of benzoic acid, tropic acid, and a hydroxide gave rise to three system peaks as expected. The first peak was again stationary and the two others shifted depending on the concentration variation of both acids. Resonance causing a zigzag peak, well described in capillary zone electrophoresis (CZE), was observed if 1‐pentanol was injected into a chromatographic system with one‐component mobile phase.     

Determination of Amino Acid Enantiomers in Pharmaceuticals by Reversed-Phase High-Performance Liquid Chromatography

Precolumn derivatization with the reagent o-phthalic aldehyde/N-acetyl-L-cysteine (OPA/NAC) was used for the determination of amino acid enantiomers by reversed-phase high-performance liquid chromatography. The influence of the composition and pH of the eluent on the separation of the resulting derivatives was studied with the example of four amino acids. It was found that the highest selectivity and efficiency of the separation of OPA/NAC derivatives of amino acids is attained with the use of the eluent methanol–0.01 M Na₂HPO₄ (pH 6.0). The optimum composition of the mobile phase and conditions of the gradient elution were selected for the separation of a mixture of 20 amino acid derivatives. A procedure was developed for the determination of amino acid enantiomers in parenteral nutrition preparations. The procedure was used for the determination of D-isomers of arginine, alanine, methionine, phenylalanine, and leucine in the preparation Polyamine.     

Study of the Complexation of Octakis(diethoxyphosphoryloxy)-tetramethylcalix[4]resorcinarene with Benzene Derivatives by the RP HPLC Method

Stability constants of the host–guest complexes of octakis(diethoxyphosphoryloxy) tetramethylcalix[4]resorcinarene (RA) with different benzene derivatives (alkyl benzenes, halogenated benzenes, substituted aldehydes, phenols and benzoic acids) were determined by the reversed phase high-performance liquid chromatography (RP HPLC) method (Separon SGX C 18, UV detector at 254 nm and acetonitrile-water, 86 : 14, v/v, as mobile phase) from the relationship between the aromatic guest capacity factors and the RA host concentration in the mobile phase. The constants are within the range 17–596 M^–1, dependent on the size, nature, position and quantity of the substituents in the benzene ring of the guest molecules.     

Use of short-end injection capillary packed with a glycopeptide antibiotic stationary phase in electrochromatography and capillary liquid chromatography for the enantiomeric separation of hydroxy acids

A new chiral stationary phase (CSP) was prepared by reacting MDL 63,246 (Hepta-Tyr), a glycopeptide antibiotic belonging to the teicoplanin family, with 5-μm diol-silica particles. The CSP mixed with 5-μm amino silica particles (3:1) was packed into 75-μm fused-silica capillaries for only 6.6 cm and used for electrochromatographic experiments analyzing several hydroxy acid enantiomers. A reversed electroosmotic flow carried both analytes and mobile phase towards the anode in a short time (1–3 min), being baseline resolved all the studied analytes. In order to achieve the fastest enantiomeric resolution of the studied hydroxy acids, the effect of several experimental parameters such as mobile phase composition (organic modifier type and concentration, pH of the buffer and ionic strength), capillary temperature and applied voltage on enantioresolution factor, retention time, enantioselectivity were evaluated. The packed capillary column allowed the separation of mandelic acid enantiomers in less than 72 s with resolution factor R_s=2.18 applying a voltage of 30 kV and eluting with a mobile phase composed by 50 mM ammonium acetate (pH 6)–water–acetonitrile (1:4:5, v/v). The CSP was also tested in the capillary liquid chromatography mode resolving all the studied enantiomers applying 12 bar pressure to the mobile phase [50 mM ammonium acetate (pH 6)–water–methanol–acetonitrile, 1:4:2:3, v/v)], however, relatively long analysis times were observed (12–20 min).     

Preparation and application of novel zwitterionic monolithic column for hydrophilic interaction chromatography

A novel zwitterionic hydrophilic porous monolithic stationary phase was prepared based on the thermal‐initiated copolymerization of N,N‐dimethyl‐N‐(3‐methacryl‐amidopropyl)‐N‐(3‐(sulfopropyl)ammonium betaine and ethylene glycol dimethacrylate. A typical hydrophilic separation mechanism was observed at a highly organic mobile phase (ACN >60%) on this optimized zwitterionic hydrophilic interaction chromatography (HILIC) monolithic stationary phase. Good permeability, stability, and column efficiency were observed on the final monolithic column. Additionally, a weak electrostatic interaction for charged analytes was confirmed in analysis of six benzoic acids by studying the influence of mobile phase pH and salt concentration on their retention behaviors on the obtained zwitterionic HILIC monolithic column. The optimized zwitterionic HILIC monolith exhibited good selectivity for a range of polar test analytes.     

Reversed Phase Thin Layer Chromatography of Amino Acids

Abstract

The use of reversed phase layers for the thin layer chromatography of amino acids is described. Only when a modifier was added to the mobile phase was clear separation of the amino acids achieved. Ion paring with trifluoroacetic acid overcame problems with streaking and poor separation on C₂ or C₁₈ reversed phase layers. All amino acids could not be separated with a single mobile phase. Thus, three different combination of acetonitrile-0.4% trifluoroacetic acid were used to separate eighteen amino acids with derivatization. No derivative was required.     

Chromatographic properties of silica modified with 6,10-ionene and sodium lignosulfonate

Adsorbents for hydrophilic chromatography: silica layer-by-layer modified with 6,10-ionene and sodium lignosulfonate (Sorbent-1), and silica modified with chitosan and sodium lignosulfonate (Sorbent-2) have been investigated. The influence of the nature of polycation used for the synthesis of adsorbents and the composition of the mobile phase on the retention and separation of phenol carboxylic acids have been studied. It was found that the retention of organic acids and the selectivity of their separation are higher on Sorbent-1. The possibility of the isocratic separation of a mixture of caffeine, sorbic, benzoic, vanillic, gallic, salicylic, sinapic, ferulic, p-cumaric, and caffeic acids in 30 min on a column filled with Sorbent-1 was demonstrated.     

Separation and Determination of Bile Acids in Human Bile by High-Performance Liquid Chromatography

Abstract

A method for simultaneous determination of major bile acids in human bile is described. The unconjugated, glycine- and taurine-conjugated bile acids are extracted with Sep-pak C¹⁸ and separated into groups by ion-exchange chromatography on a lipophilic gel. Subsequently, resolution of each group into ursodeoxycholate, cholate, chenodeoxycholate, deoxycholate and lithocholate is attained into two stages by high-performance liquid chromatography on a Radial-PAK A column. First, 0.3% ammonium phosphate (pH 7.7)/acetonitrile (19:8, v/v) is used for separation of the latter three as a mobile phase. Ursodeoxycholate and cholate are efficiently separated in 0.3% ammonium phosphate (pH 7.7)/acetonitrile (23:8, v/v). The present method is applicable to quantitation of bile acids in human bile with satisfactory accuracy and precision.     

Separation of Monosulfated Bile Acids by High-Performance Liquid Chromatography

Abstract

Separation of 3-, 7- and 12-monosulfates of cholate, chenodeoxycholate, deoxycholate, lithocholate and ursodeoxycholate and their glyco- and tauro-conjugates by high-performance liquid chromatography on a reversed phase column has been carried out. Effects of pH and salt concentration of a mobile phase on the k' value of sulfated bile acids were investigated with the μBondapak C₁₈ and ODS SC-02 columns. The 3-sulfated bile acids were efficiently separated on ODS SC-02 using three aqueous ammonium carbonate/acetonitrile systems. The chromatographic behaviors of 7-and 12-sulfated bile acids are also briefly discussed.     

Extractant Effect on the Retention of the Stationary Phase in a Rotating Coiled Column

The effects of physicochemical properties of two-phase liquid systems (interfacial tension and differences in density and viscosity) on the retention of the stationary phase in the column were examined. These effects mainly determine the separation parameters of compounds. Extractant/decane–aqueous phase systems were used; their physicochemical properties changed both as a result of adding an extractant (di-(2-ethylhexyl) phosphoric acid, trioctylamine, or tributyl phosphate) to the organic solvent and because of a change in the composition of the aqueous phase. Aqueous ammonium sulfate of varying concentration was used as a mobile phase. It was shown that interfacial tension substantially affects the behavior of the systems under consideration. An increase in the ammonium sulfate concentration only slightly affects the retention factor of the stationary phase in the column. With a proper choice of the stationary phase, countercurrent chromatography can be used for the extraction of components from salt solutions of various concentrations.     

Effects of ionic liquid as additive and the pH of the mobile phase on the retention factors of amino benzoic acids in RP-HPLC

As an organic salt, ionic liquids are widely used as new solvent media. In this paper, three positional isomers, such as o-amino benzoic acid, m-amino benzoic acid, and p-amino benzoic acid are separated with four different ionic liquids as additives to the mobile phase using reversed-phase (RP) high-performance liquid chromatography (HPLC). Amino benzoic acids are biologically active substances; the p-isomer is present in a group of water-soluble vitamins and is widely known as a sunscreen agent. The ionic liquids used are 1-butyl-3-methylimidazolium tetrafluoroborate, 1-ethyl-3-methylimidazolium tetrafluoroborate, 1-ethyl-3-methylimidazolium methylsulfate, and 1-octyl-3-methylimidazolium methylsulfate. The effects of the length of the alkyl group on the imidazolium ring and its counterion, the concentrations of the ionic liquid, and the effect of the pH of the mobile phase on the retention factor of the amino benzoic acid isomers are studied. Separation with the ionic liquid in the eluent was better than the separation without the ionic liquid. The pH mainly affected the retention and elution order of the solutes in RP-HPLC.     

Reversed-phase thin-layer chromatography of 2-substituted benzoic acids with ammonium compounds as ion-pair reagents

Summary The retention behaviour of some substituted benzoic acids was tested on reversed-phase pre-coated plates in the presence of ammonium bromide and various tetraalkylammonium compounds with different alkyl chain lengths.It could be shown that the R_f values of the test compounds decrease in the absence and in the presence of ion-pair reagents with increasing water content of the eluent. The R_f values of the strongly acidic substituted benzoic acids decrease with both increasing concentration of the ion-pair reagent and with increasing chain length of the tetraalkylammonium compounds.Changing the inorganic counter-ions had no real influence on the separation and the size of R_f values when using tetramethylammonium compounds as ion-pair reagents.     

表面活性剂流动相用于混合固定相薄层色谱

将表面活性剂流动相用于ＧＤＸ与硅胶Ｇ混合固定相薄层色谱,用表面活性剂、乙醇和水的混合流动相对一些水溶性食品染料及指示剂等进行了分离,得到满意的结果,可以部分代替非极性键合相薄板。     

Effect of Chamber Gas Phase on Mobile Phase pH and on Separation Efficiency in TLC. A New Mode of Chromatography

A new variant of thin-layer chromatography (TLC), based on a gradual change of mobile phase acidity during elution, is proposed. The pH change occurs in the mobile phase moving along the TLC plate as a result of its contact with an acidic or a basic gas phase that replaces the initial mobile phase vapor in the TLC chamber. The potential of this approach has been demonstrated by using carbon dioxide and ammonia gases to improve the resolution of benzoic acids and aromatic amines on polyamide TLC plates.     

N-Pyrrolyl Derivative Acids Chromatography

Abstract

A determination is made on the effects of the variation of pH, methanol %, contents of tetrabutylammonium salts, ionic strength and counterion nature of the mobile phase quaternary ammonium salt, on the retention of a series of analgesics formed by N-pyrrolyl derivative acids through a column constituted by 10 μ irregular particles of octadecyl silica.

The results obtained are applied to mixture separation of said acids.