直链淀粉手性固定相分离马来酸曲美布汀和昂丹司琼对映体

建立了马来酸曲美布汀和昂丹司琼对映体的高效液相色谱拆分方法。使用Chiralpak AD-H手性色谱柱,采用正相洗脱方式,考察了流动相中有机改性剂的种类和浓度、酸碱比(冰乙酸-三乙胺)、柱温及流速等因素对对映体拆分的影响。确定了最佳拆分条件:分离马来酸曲美布汀的流动相为正己烷-异丙醇-冰乙酸-三乙胺(97∶3∶0.1∶0.3),流速为0.6mL/min;分离昂丹司琼的流动相为正己烷-异丙醇-冰乙酸-三乙胺(70∶30∶0.2∶0.4),流速为0.4mL/min,柱温均为20℃。在上述色谱条件下,两种手性药物对映体达到基线分离。     

手性流动相添加法拆分酮康唑外消旋体

采用C18反相色谱柱,利用在流动相中加入手性选择剂的方法实现酮康唑对映体的拆分。研究了手性选择剂的种类及浓度、流动相pH值、甲醇比例和柱温等因素对酮康唑手性分离的影响,结果表明磺丁基-β-环糊精可以使酮康唑对映体完全分离,最后选择的流动相组成为甲醇-0.02 mol/L磷酸二氢钠(体积比为60∶40,含0.02%三乙胺和1.0 mmol/L磺丁基-β-环糊精,用稀磷酸调节pH值到3.00)。酮康唑对映体在6 min内得到基线分离,分离度为2.05。方法简便,分离效果好,对酮康唑对映体的拆分具有应用价值。     

β-氨基酸对映体在键合型配体交换色谱固定相上的分离

制备了以L-α-氨基酸为手性配体和球型多孔硅胶为基质的键合型手性配体交换色谱固定相,用于β-氨基酸对映体的拆分。考察了硅胶基质、配体、流动相pH值、中心金属离子浓度和流动相阴离子等因素对5种β-苯丙氨酸对映体分离的影响,由此确立最佳色谱分离条件为以BaseLine硅胶为基质键合L-羟脯氨酸的手性固定相,5.0mmol/L和pH4.6的CuSO4溶液为流动相,紫外检测波长为254nm。在此条件下5种β-氨基酸对映体均可在35min内得到分离,分离因子在1.49~1.77之间。结果表明该方法操作简便,成本低廉,可用于β-氨基酸对映体的分离和分析。     

手性流动相添加剂法拆分比索洛尔对映体

以羧甲基-β-环糊精作为手性流动相添加剂,建立了高效液相色谱拆分比索洛尔对映体的方法。系统考察了手性添加剂的种类及浓度、流动相中甲醇的含量、pH值和流速等因素对拆分的影响。色谱分离条件:流动相甲醇∶乙腈∶水为20∶67∶13(V/V/V),羧甲基-β-环糊精浓度为0.5g.L-1,pH值为4.07(以三乙胺-冰乙酸调节),流速为0.3mL.min-1,检测波长223nm,对映体得到基线分离,分离度为1.89。     

手性流动相HPLC法拆分萘普生对映体的研究

将β-环糊精、甲基-β-环糊精、羟丙基-β-环糊精、L-脯氨酸作为手性流动相添加剂,系统地研究了D,L-萘普生在RP-HPLC系统中的拆分.分别考察了手性流动相的种类,手性试剂羟丙基-β-环糊精的浓度,流动相的pH值,修饰剂的种类及浓度,三乙胺浓度和柱温等对拆分效果的影响,以HP-β-CD为手性流动相添加剂,建立了HP-β-CD手性流动相分离萘普生对映体的方法.结果表明：当流动相为25 mol/L HP-β-CD、体积分数15%乙醇、体积分数0.5%三乙胺、pH3.5、柱温t25℃、流速V=1 mL/min时萘普生对映体得到了良好的基线分离,分离因子α可达1.29.     

C18柱串联冠醚手性柱高效分离3种芳香族氨基酸对映体

将C18柱与手性冠醚柱串联,建立了一种反相高效液相色谱法用于3种芳香族氨基酸对映体同时拆分的方法.考察了反相色谱流动相的组成、pH值、柱温、流速对对映体拆分的影响.实验结果表明,当流动相为HClO4-乙睛溶液(86:14,V/V,pH 2.0)、柱温20℃、流速0.4 mL/min时,3种氨基酸对映体可获得基线分离.进一步对比了C18柱、冠醚手性柱和串联顺序不同的4种分离模式,结果表明,C18柱不能拆分氨基酸对映体,仅能分离不同种类氨基酸;冠醚手性柱可分离氨基酸映体,但不同种类氨基酸色谱峰出现重叠;串联模式能实现3种氨基酸对映体的基线分离,实现双柱优势互补,而串联顺序对分离影响不大,仅影响色谱峰的峰形.     

多糖衍生物手性固定相上采用酸性或碱性添加剂的流动相拆分β受体阻滞剂对映体

考察了多糖类手性固定相在含有酸性或碱性添加剂的流动相下高效液相色谱法拆分β受体阻滞剂对映体的效果。色谱条件: 流动相为10%～30%(体积分数,下同)乙醇-正己烷(含0.1%三氟乙酸)和10%～30%乙醇-正己烷(含0.1%三乙胺),流速1.0 mL/min,紫外检测波长254 nm。结果表明,在直链淀粉-三(3,5-二甲基苯基氨基甲酸酯)衍生物手性固定相(Chiralpak AD和Chiralpak IA)上拆分β受体阻滞剂对映体,酸性添加剂的流动相体系与碱性添加剂的流动相体系相比,碱性添加剂的流动相的拆分效果比酸性添加剂的流动相要好。而在纤维素-三(3,5-二甲基苯基氨基甲酸酯)衍生物的手性固定相(Chiralcel OD和Chiralpak IB)上分离β受体阻滞剂,比较酸性添加剂的流动相与碱性添加剂的流动相的拆分效果,发现酸性添加剂的流动相条件下对映体的保留减弱,但对映体的选择性增大,特别是在Chiralcel OD上,酸性添加剂的流动相体系对对映体的选择性非常理想,而且随着流动相中酸性添加剂含量的增加,β受体阻滞剂对映体的分离效果更佳。     

高效液相色谱手性冠醚固定相拆分丙氨酸、正缬氨酸和犬尿氨酸对映体

采用高效液相色谱法在手性冠醚柱上拆分丙氨酸、正缬氨酸和犬尿氨酸3种对映体.使用CROWNPAK CR(+)柱(150 mm×4 mm, 5 μm),以HClO4溶液(pH 1.0)为流动相,柱温20 ℃,流速1.0 mL/min,丙氨酸、正缬氨酸和犬尿氨酸的检测波长分别为200、220和254 nm,3种氨基酸都得到手性拆分.考察了流动相流速、温度及pH对分离的影响,并通过对选择性、保留时间和柱效的考察判断影响分离度的因素.结果表明: 降低温度有助于提高手性选择性,但会降低柱效,从而影响分离度.在0～20 ℃柱温范围内研究了lnk′、lnα与1/T的关系,计算了3种氨基酸对映体与固定相相互作用的热力学函数.     

高效液相色谱手性流动相添加剂法拆分酪氨酸甲酯对映体

分别将β-环糊精、羟丙基-β-环糊精作为手性流动相添加剂，研究了酪氨酸甲酯对映体在反相HPLC系统中的拆分，考察了流动相种类、pH和手性流动相添加剂浓度对手性拆分的影响，建立了β-环糊精手性流动相添加剂法拆分酪氨酸甲酯对映体的方法。     

手性流动相添加剂法对两种手性化合物的直接拆分

以β-环糊精为手性流动相添加剂,于C8反相柱上建立了2种手性农药(包括杀菌剂己唑醇和杀虫剂SR-生物丙烯菊酯)对映体的高效液相色谱拆分方法。探讨了β-环糊精浓度、流动相pH、有机改性剂种类等因素对手性拆分的影响。结果表明：在流动相为β-环糊精水溶液、磷酸钠缓冲液(0．05mol／L)、乙腈、三乙胺(体积比50：30：20：0．5)条件下,己唑醇对映体在pH为7．4,β-环糊精溶液浓度为7mmol／L时,SR-生物丙烯菊酯对映体在pH为6．4,β-环糊精浓度为10．5mmol／L时得到最佳分离。     

高效液相色谱手性流动相添加法拆分阿卓乳酸对映体

采用C₁₈反相色谱柱,以磺丁基醚-β-环糊精（SBE-β-CD）作为手性流动相添加剂,建立了阿卓乳酸对映体的高效液相色谱拆分方法。考察了环糊精衍生物类型、手性添加剂浓度、流动相pH、流速和柱温对手性分离的影响,同时探讨了高效液相色谱采用磺丁基醚-β-环糊精分离阿卓乳酸对映体的分离机制及包结常数,确定了色谱条件为YMC-Pack ODS-A C₁₈色谱柱（250 mm×4.6 mm,5 μm）,流动相为含25 mmol/LSBE-β-CD的0.1 mol/L磷酸盐缓冲液（pH 2.68）-乙腈（90：10,v/v）,流速为0.6 mL/min,柱温为30 ℃,紫外检测波长为220 nm。对映体的保留时间分别为26.65和28.28 min,分离度为1.68。本方法分离度好,简便易行,且比使用手性固定相分离更加经济。     

Enantioseparation of 2-aryloxypropionic acids on chiral porous monolithic columns by capillary electrochromatography. Evaluation of column performance and enantioselectivity

The enantioseparation of 2-aryloxypropionic acids by capillary electrochromatography was tested on columns with a monolithic stationary phase prepared from silanized fused-silica capillaries (100 microm I.D.) by in situ copolymerization of glycidyl methacrylate, ethylene glycol dimethacrylate and methyl methacrylate in the presence of formamide and 1-propanol as the porogen solvents. The porous chiral monolithic stationary phases were prepared by reaction of the epoxy-groups at the surface of the monolith with (+)-1-(4-aminobutyl)-(5R,8S,10R)-terguride. To attain the minimum HETP values for the enantiodiscrimination of 2-phenoxypropionic acid, the influence of the composition of polymerization solution on column total porosity and efficiency was investigated. Optimum mobile phase conditions were found for all analytes tested using acetonitrile-methanol mixtures containing triethylamine and acetic acid as the buffer components. Furthermore, the chemical and mechanical stabilities of the columns were satisfactory, allowing hundreds of analyses.     

分子印迹整体柱在高效液相色谱和电色谱手性分离中的应用

在常规不锈钢色谱管中以甲基丙烯酸为功能单体,采用原位聚合法制备了(5S,11S)-特罗格尔碱(S-TB)的印迹整体柱。考察了流动相中添加不同量的醋酸和水对分离的影响,结合台阶梯度洗脱模式在S-TB整体柱上实现了对TB消旋体的快速分离。另外,以碱性单体2-二甲基乙基胺甲基丙烯酸酯(DAMA)为功能单体,在毛细管中采用原位聚合法制备了毛细管分子印迹整体柱,用于在毛细管电色谱（CEC）中对消旋体1,1′-联-2-萘酚(BNL)进行手性分离。结果表明,以AMA为功能单体可以制备其他酸性模板的分子印迹聚合物,从而扩大了分子印迹聚合物MIP）在CEC分离中的应用范围。     

Reversed-phase liquid chromatographic separation of antiretroviral drugs on a monolithic column using ionic liquids as mobile phase additives

The use of 3-methylimidazolium cation-based ionic liquids (ILs) was evaluated as mobile phase additives for separation of antiretroviral drugs on a monolithic column by RP-HPLC. Separation of eight commonly used antiretroviral drugs was achieved on a Chromolith Flash, RP-18e column (25 × 4.6 mm, porous material) using water (pH 4.0 adjusted with acetic acid)/methanol v/v as a mobile phase containing ILs in a gradient elution mode. The effects of concentrations of ILs on retention, resolution and peak shape were studied and a regression equation correlating the interactions between stationary phase and the ILs was established. The retention of all the drugs was decreased notably by using 1-butyl-3-methylimidazolium tetrafluoroborate, while 1-ethyl-3-methylimidazolium methylsulfate reduced gradient drift drastically when compared to triethylamine.     

Chiral separation of beta-adrenergic antagonists, profen non-steroidal anti-inflammatory drugs and chlorophenoxypropionic acid herbicides using teicoplanin as the chiral selector in capillary liquid chromatography

Three groups of structurally diverse chiral compounds were used to study the interaction mechanism responsible for stereoselective recognition with teicoplanin as chiral selector in capillary liquid chromatography. Teicoplanin-based chiral stationary phase (CSP) was used. The effect of the variation of mobile phase composition on retention and enantioselective separation was studied. The mobile phase composition suitable for enantioresolution of the various chiral compounds differed according to the interaction forces needed for chiral recognition. Mobile phases with high buffer portion (70-90 vol.%) were preferred for separation of enantiomers of profen non-steroidal anti-inflammatory drugs and chlorophenoxypropionic acid herbicides that require hydrophobic interactions, inclusion and pi-pi interactions for stereoselective recognition with teicoplanin. Higher concentration triethylamine in the buffer (0.5-1.0%) increased resolution of these acids. On the other hand, H-bonding and electrostatic interactions are important in stereoselective interaction mechanism of beta-adrenergic antagonists with teicoplanin. These interaction types predominate in the reversed phase separation mode with high organic modifier content (95% methanol) and in polar organic mobile phases. For this reason beta-adrenergic antagonists were best enantioresolved in the polar organic mode. The mobile phase composed of methanol/acetic acid/triethylamine, 100/0.01/0.01 (v/v/v), provided enantioresolution values of all the studied beta-adrenergic antagonists in the range 1.1-1.9. Addition of teicoplanin to the mobile phase, which was suitable for enantioseparation of certain compounds on the CSP, was also investigated. This system was used to dispose of nonstereoselective interactions of analytes with silica gel support that often participate in the interaction with CSPs. Very low concentration of teicoplanin in the mobile phase (0.1 mM) resulted in enantioselective separation of 2,2- and 2,4-chlorophenoxypropionic acids.     

Impact of amines as co-modifiers on the enantioseparation of various amino acid derivatives on a tert-butyl carbamoylated quinine-based chiral stationary phase

A tert-butyl carbamoylated quinine-based chiral stationary phase (CSP) for direct enantiomer separation of various natural and unnatural amino acid derivatives was studied. The influence of functional groups in the amino acid side chains upon the enantioseparation is discussed with the aim of realizing contributions to their overall chiral recognition. The effects of various amines as co-modifiers upon retention and overall enantioselectivity of amino acid derivatives in polar organic solvents was systematically investigated. In general, retention times decreased with increasing amine concentrations without a distinct alteration of enantioselectivity. All analytes were rapidly resolved on the CSP with the methanol-based mobile phase containing 87 mM acetic acid and 7 mM triethylamine.     

The influence of mobile phase demixion on thin-layer chromatographic enantioseparation of ibuprofen and naproxen

In our earlier article we presented the results of tracing the enantioseparation of the two test analytes (ibuprofen and naproxen) by means of video densitometry and scanning densitometry. In that way we demonstrated an excellent performance of this combined approach to the thin-layer chromatographic detection in the area of enantioseparation. In this paper we study an impact of the four different mobile phases on the enantioseparation of the scalemic mixtures of ibuprofen and naproxen on the silica gel layers impregnated with L-arginine as chiral selector. The main component of all the investigated mobile phases is 2-propanol. Mobile phase 1 consists of pure 2-propanol, while mobile phases 2-4 contain, respectively, ca. 0.66, 1.32, and 1.98 g/L of glacial acetic acid in 2-propanol. Acetic acid is used to protonate L-arginine, as the involved retention mechanism consists of the ion pair formation between L-arginine in the cationic form and the chiral 2-arylpropionic acids (2-APAs), ibuprofen and naproxen, in the anionic form. It is shown that in the absence of glacial acetic acid no enantioseparation can be obtained. Then with adding of 0.66 g/L glacial acetic acid partial enantioseparation of the naproxen and ibuprofen antimers is obtained, with a simultaneous effect of the mobile phase demixion. With the amount of acetic acid increasing, the effect of demixion becomes increasingly perceptible. In that case the displacement effect is observed (and mathematically modeled), which results in compressing of the antimer pairs by the second front of mobile phase. The obtained results allow a deeper insight into the mechanism of enantioseparation with the two test 2-APAs. A combined impact of the crystalline chirality of silica gel and the molecular chirality of L-arginine on the vertical and the horizontal enantioseparation of ibuprofen and naproxen is also discussed.     

万古霉素及其苯异氰酸酯衍生物手性固定相的制备与应用

采用"一锅法",以1,6-二异氰酸正己酯作间隔臂,制备了万古霉素及苯异氰酸酯衍生化的万古霉素手性固定相。对拉米夫定、拉米夫定的L-薄荷醇酯、酞胺哌啶酮和盐酸氟西汀进行了手性分离研究,在极性有机相模式下,研究了流动相甲醇中冰醋酸-三乙胺浓度和比例对手性分离的影响,观察到两种手性固定相具有不同的手性识别能力。在万古霉素手性固定相上4种溶质都获得了基线分离;在苯异氰酸酯衍生化的手性固定相上除盐酸氟西汀外也均获得基线分离。     

Enantiomeric separation by capillary electrochromatography. I. Chiral separation of dansyl amino acids and organochlorine pesticides on a diol-silica dynamically coated with hydroxypropyl-beta-cyclodextrin

In this work, a commercially available diol-silica stationary phase was converted in situ to a chiral stationary phase by dynamically coating it with hydroxypropyl-beta-cyclodextrin (HP-beta-CD). This stationary phase was shown useful for the capillary electrochromatography (CEC) separation of neutral and anionic enantiomers such as some organochlorine pesticides and dansyl amino acids, respectively. The inclusion of HP-beta-CD in the mobile phase to produce the in situ chiral stationary phase allowed the rapid separation of the anionic dansyl amino acid enantiomers at relatively low electroosmotic flow (EOF). The formation of host-guest complexes between the dansyl amino acids and the neutral HP-beta-CD in the mobile phase lowered the actual charge-to-mass ratios of the anionic solutes, thus speeding up their transport by the EOF across the packed capillary column. Several parameters affecting enantioseparation were investigated, including the concentration of HP-beta-CD, ionic strength, pH, and organic modifier content of the mobile phase.     

以L-酒石酸正己酯-硼酸配合物作为反相液相色谱手性流动相添加剂拆分5种β-受体阻滞剂

本文以L-酒石酸正己酯-硼酸配合物为手性流动相添加剂,建立了普萘洛尔、艾司洛尔、美托洛尔、比索洛尔、索他洛尔和阿替洛尔六种β-受体阻滞剂的反相高效液相色谱手性分离方法。对影响对映体分离的主要因素：L-酒石酸正己酯、硼酸浓度,缓冲溶液种类、浓度、pH值和有机改性剂-甲醇含量等进行了详细考察。最佳色谱条件为：Venusil MP-C18色谱柱（4.6 mm × 250 mm,5 μm）,流动相为15 mmol/L乙酸铵-甲醇（体积比为20: 80或30: 70,含60 mmol/L硼酸,70 mmol/L L-酒石酸正己酯,醋酸调节pH值6.00）,检测波长214 nm。在最佳分离条件下,五对对映体（普萘洛尔、艾司洛尔、美托洛尔、比索洛尔、索他洛尔）可以分别获得基线分离。