高速逆流色谱法分离茶叶中的生物碱

以氯仿－甲醇－磷酸二氢钠缓冲液（２３ｍｍｏｌ／Ｌ,ｐＨ５．６）（体积比４∶３∶２）为溶剂系统,上相为固定相,下相为移动相,从茶叶的总生物碱中分离出三个成分,其中一个是咖啡碱,一个是茶碱,另一个待定。将分离结果与ＴＬＣ分离结果相比较,证实了高速逆流色谱法的有效及实用性。     

利用酰胺型手性固定相正相拆分β-受体阻滞剂对映体

利用酰胺型手性固定相正相直接拆分了β－受体阻滞剂阿替洛尔,讨论了三元流动相中１,２－二氯乙烷和甲醇含量的改变以及不同极性调节剂的使用对分离的影响。优化的流动相组成为Ｖ（正己烷）∶Ｖ（１,２－二氯乙烷）∶Ｖ（甲醇）＝６８∶２６∶６,并在探讨分离机理的同时比较了阿替洛尔、噻利洛尔和普萘洛尔３种β－受体阻滞剂在酰胺型手性固定相上拆分的结果     

鸡肉中多种磺胺兽药残留量测定的高效液相色谱-电化学检测法

采用液相色谱电化学法测定了鸡肉中磺胺类药物残留量；磺胺用氯仿提取后，取部分提取液用氮气吹干，残渣溶于KH2PO4中，用正己烷脱脂，水相进样，液相色谱分析用C18柱，流动相为甲醇－0．01mol/L KH2PO4(pH6，体积比25：75），检测电位1．0V；与紫外检测器相比，电化学检测器（ECD）有更高的灵敏度和选择性，ECD的检出限为磺胺嘧啶0.02ng，磺胺甲氧哒嗪0．06ng，磺胺甲基异恶唑0.07ng。     

混合溶剂中TS-1催化丙烯环氧化反应的研究

对甲醇、异丙醇混合溶剂中的TS－1催化丙烯环氧化过程进行了实验研究。通过单因素实验和正交实际，系统考察了溶剂组成（甲醇质量／异丙醇质量），反应温度，H2O2浓度和TS－1催化剂浓度四个因素对反应的影响，得到了反应的最佳工艺条件。在此条件下反应30min,H2O2转化率为94．1％，环氧丙烷选择性为95．3％，环氧丙烷收率为89．7％。     

高氯酸钬（Ⅲ）和双（苯基亚砜）丙烷、双（苯基亚砜）丁烷配合物的光谱性质

测量了高氯酸钦（Ⅲ）和双（苯基亚砜）丙烷、双（苯基亚砜）丁烷配合物的溶液（甲醇－氯仿，二甲基甲酰胺）的电子光谱，计算了ｆ－ｆ跃迁的振子强度和强度参数，并讨论了“超灵敏”跃迁的强度和强度多数与配体性质的关系和溶剂的影响。     

极性非质子溶剂与甲醇或1,2-二氯乙烷的汽液平衡

使用双沸点仪测定了丙酮、乙酸乙酯、对二氧六环、乙腈或三乙胺与甲醇或1,2→二氯乙烷以及二者混合物等十一组二元体系在99.3 kPa下的汽液平衡数据(T,x,p), 计算了有关体系的过量吉布斯自由能。结果表明, 六种非质子溶剂与甲醇组成的二元系GE>0; 乙腈或三乙胺与1,2-二氯乙烷组成的二元系GE>0, 而丙酮、乙酸乙酯或对二氧六环与1,2-二氯乙烷的二元混合物GE<0。从同种分子间或不同种分子间的缔合作用对上述结果进行了讨论。本文还在固定极性非质子溶剂(第三组分)物质的量浓度的条件下, 测定了非质子溶剂+1,2-二氯乙烷+甲醇三元混合物的汽液平衡数据, 考察了非质子溶剂的加入对甲醇+1,2-二氯乙烷二元系GE的影响。     

高氯酸钬（Ⅲ）和双（苯基亚砜）丙烷,双（苯基亚砜）丁烷配合物的光…

测量了高氯酸钬（Ⅲ）和双（苯基亚砜）丙烷、双（苯基亚砜）丁烷配合物的溶液（甲醇－氯仿，二甲基甲酰胺）的电子光谱，计算了ｆ－ｆ跃迁的振子强度和强度参数，并讨论了“超灵敏”跃迁的强度和强度参数与配体性质的关系和溶剂的影响。     

高速逆流色谱法分离和测定甾体激素

用自制的高速逆流色谱仪分离两酸睾丸素和氢化可的松注射剂，以氯仿－甲醇－水为溶剂体系及优化的色谱条件，对样品组分作了有效的分离，以苯甲酸为内标，获得令人满意的定量结果，标准偏差小于０．８％。     

人血清中地尔硫高效液相色谱法测定及药代动力学参数

 建立了反相高效液相色谱法监测人口服地尔硫艹卓缓释片后血药浓度。血样用正己烷－氯仿－异丙醇混合溶剂（６０４０５）提取后，以Ｃ１８化学键合硅胶为固定相，甲醇－水－三乙胺为流动相，安定为内标，在２３９ｎｍ波长处定量检测。血药浓度在１５～３００μｇ／Ｌ范围内线性关系良好，最低检测浓度为３μｇ／Ｌ。批内（ｎ＝７）及批间（ｎ＝５）测定相对标准偏差分别小于６．８％和８．４％，回收率为９１％～１０４％。监测了８名健康人口服盐酸地尔硫艹卓缓释片后的不同时间的血药浓度变化，计算了有关的药代动力学参数。     

环氧丙烷的溶剂分解反应研究

 考察了双氧水浓度、溶剂种类及添加的酸性或碱性物质等因素对环氧丙烷的溶剂分解反应的影响．结果表明：双氧水和TS－1沸石上的SiOH（硅羟基）及TiO2（锐钛矿）对环氧丙烷的溶剂分解反应无催化活性;而TS－1中的骨架铝,沸石骨架中配位不饱和的Ti4＋形成的L酸中心,TS－1水解产生的钛羟基和由TS－1,双氧水及溶剂（甲醇）相互作用所生成的五元环中间活性钛等物种对环氧丙烷的溶剂分解反应具有催化活性．原料中加入碱性物质可以显著抑制TS－1催化环氧丙烷的溶剂分解反应活性;添加酸性物质可以提高TS－1催化环氧丙烷的溶剂分解反应活性．由于空间位阻效应,使得环氧丙烷的溶剂分解反应活性随着醇类溶剂分子的增大而降低．在甲醇－水混合溶剂中,当水含量增加时,活性中间过渡物种的变化导致环氧丙烷的溶剂分解活性降低和双氧水分解率升高．TS－1沸石晶粒大小对环氧丙烷的溶剂分解反应活性的影响显著：大晶粒TS－1对环氧丙烷的溶剂分解反应的催化活性明显高于小晶粒TS－1．这是由于大晶粒TS－1内扩散距离较远所致．     

Determination of Solvatochromic Regression Coefficients for the Molybdenum(VI) Complex with Ethylenediamine‐N,N′‐diacetic Acid by Using Kamlet‐Abboud‐Taft Equation

The Solver, Microsoft Excel 2000 powerful optimization package, has been used to perform non‐linear least‐squares curve fitting on the basis of Gauss‐Newton method for the calculation of solvatochromic regression coefficients for the complexation of molybdenum(VI) with ethylenediamine‐N,N′‐diacetic acid and dissociation constants at 25°C and constant ionic strength 0.1 mol·L⁻¹ sodium perchlorate in different aqueous solutions of methanol. A combination of potentiometric and UV spectrophotometric methods have been used for experimental studies. Non specific and specific solute‐solvent interactions were interpreted by correlating the equilibrium data with solvent parameters using the Kamlet‐Abboud‐Taft solvatochromic equation. Finally the influence of the solvent on the stability of the complex was discussed on the basis of the correlation results and the contribution of α (hydrogen‐bond donor acidity), β (hydrogen‐bond acceptor basicity) and π* (dipolarity/polarizability) parameters.     

不定物种的多组分体系同时测定：逐步回归法解析紫外光谱矢量数据的研究

本文采用逐步回归法对不定物种的多组分体系的紫外光谱矢量数据进行解析，可对物种及物种含量同时进行定性和定量分析，通过对两个复方药物体系（复方扑热息痛与复方维生素Ｂ）的紫外光谱数据的实际解析，表明本法能有效地完成混合物中物种及物种含量的同时定性和定量测定。     

Integration of computer-assisted statistical scanning optimization system in HPLC

Three computer-assisted statistical scanning methods, the monofactor optimization system (MOS), multicomponent solvent optimization system (MSOS), and difactor optimization system (DOS) for optimizing HPLC separations, have been integrated to produce the optimization system of HPLC (OS-L). The method proposes the complementary use of these techniques, maximizing their strengths while compensating for their weaknesses. The result of OS-L is a method development strategy which obtains simple solutions for simple separation problems and reserves the more complex solutions for difficult separations.     

Application of multivariate analysis to the screening of molecularly imprinted polymers (MIPs) for ametryn

Among the solid-phase extraction (SPE) techniques, a novel system for a triazine herbicide named ametryn, has been developed based on a molecular imprinted polymer (MIP) phase. Through this method, the synthesis of the complementary to ametryn MIP was accomplished and the factors influencing its efficiency have been optimized. Through the optimization process, the type and the amounts of functional monomer and solvents, template amount, cross-linker, initiator as well as the polymerization temperature were considered to be evaluated. Based on the obtained results, the optimum conditions for the efficient polymerized sorbent, considering the recovery efficiency were solvent: acetonitrile, 6.41 mL; monomer: methacrylic acid, 5.41 mmol; template: 1.204 mmol; cross-linker: 27.070 mmol; initiator: 2.03 mmol; temperature: 40.86 degrees C. The optimum molar ratio among the template, monomer and cross-linker for ametryn was 1:4.49:22.48. The reversed-phase HPLC-UV was used for the ametryn determination, using an isocratic solvent delivery system (acetonitrile: H(2)O, 60:40), flow-rate of 0.8 mL min(-1) and a UV wavelength of 220 nm. In line with the obtained results, using central composite design (CCD) can increase the precision and accuracy of synthesis and optimization of MIP to ametryn and possibly other similar analogues.     

A computer simulation — Statistical procedure for predicting complexation equilibrium constants

The complexing properties of macrocyclic ligands have been quantitatively studied by the combined use of molecular mechanics, molecular dynamics, and multiple linear regression. The dependent variables in the regression equations are experimental equilibrium constants for known macrocycle complexes in various solvents. The independent variables are theoretical simulation results on the solvent-free ligand and its complex and additional physically motivated empirical variables to describe solvent and other important effects.The systems studied were: (a) 314 metal ion-macrocycle-solvent (including 3 mixed solvents) combinations; (b) 88 ammonium ion-crown ether-solvent (including 1 mixed solvent) combinations; (c) 24 hydrogen ion-crown ether-H₂O combinations; (d) 26 Na⁺ ion-spherand-CDCl₃ combinations; (e) 78 ammonium ion-spherand-CDCl₃ combinations; and (f) 73 complicated host-guest-solvent (including 1 mixed solvent) combinations.For each system, we report the best regression equation obtained using the AMBER force field. The standard errors in logK range from 1.42 in the largest system to 0.36 in the smallest. Regression equations were determined for several of the systems using the MMP2 force field as well, and the equations are shown to be relatively insensitive to the force field.The predictive ability of the method was tested by predicting logK for 20% of the cases chosen at random using equations derived from the remaining 80%. The errors in the predicted values are shown to be consistent with the statistical assumptions of the model.Regression equations obtained with this method can be used to predict the equilibrium constants for new complexes involving some combination of new, possibly unknown macrocycle, new host and, in certain cases new solvent. No X-ray or other structural data for the macrocycle is needed.     

Hybrid supermolecule-polarizable continuum approach to solvation: Application to the mechanism of the Stevens rearrangement

Semiempirical molecular orbital theory has been used to study the effects of solvation by acetonitrile on the Stevens rearrangement of methylammonium formylmethylide to 2-aminopropanal. Three methods of solvation have been used to investigate both the electrostatic and specific solvent–solute effects of solvation: a supermolecule calculation involving the complete geometry optimization of up to six solvent molecules about the solute, the conductor-like screening model (COSMO) polarizable continuum method which allows for geometry optimization of the solute in a solvent defined by its dielectric constant, and a hybrid method in which up to five solvent molecules are incorporated inside the solute cavity and complete geometry optimization of the complex is carried out within the polarizable continuum. A comparison of the calculated geometries, rearrangement activation energies, and enthalpies of solvation from these approaches is presented, and the explicit versus bulk solvation effects are discussed. The overall effect of all methods for incorporating solvation effects is that the radical pair pathway is perferred over the concerted mechanism. © 1996 by John Wiley & Sons, Inc.     

Quantitative structure chromatography relationships in reversed-phase high performance liquid chromatography: Prediction of retention behaviour using theoretically derived molecular properties

Summary The use of theoretically calculated molecular properties as predictors for retention in reversed-phase HPLC has been explored. HPLC retention times have been measured for a series of 47 substituted aromatic molecules in three solvent mixtures and steric and electronic properties of these compounds have been derived using semi-empirical molecular orbital and empirical theoretical methods. A subset of the experimental data (a training set) was used to derive property-retention time relationships and the remaining data were then used to test the predictive capability of the methods.Good retention time prediction was possible using derived regression equations for individual solvents and after including solvent parameters it was possible to predict retention for all solvents using a single equation. This method showed that the most useful properties were calculated log P and the calculated dipole moment of the solutes, and the calculated solvent polarisability. In addition, 90% of the data were used to train an artificial neural network and the remaining 10% of the data used to test the network; excellent prediction was obtained, the neural network approach being as successful as the regression analysis.     

Microwave‐assisted extraction followed by RP‐HPLC for the simultaneous extraction and determination of forsythiaside A,rutin, and phillyrin in the fruits of Forsythia suspensa

An optimized microwave‐assisted extraction (MAE) method and RP‐HPLC method were developed for the simultaneous extraction and determination of rutin, forsythiaside A, and phillyrin in the fruits of Forsythia suspensa. The key parameters of the open‐vessel MAE process were optimized. A mixed solvent of methanol and water (70:30, v/v) was most suitable for the simultaneous extraction of the three components. The sample was soaked for 10 min before extraction. The optimized conditions were: microwave power 400 W, temperature 70°C, solvent‐to‐material ratio 30 mL/g, and extraction time 1 min. Compared to conventional extraction methods, the proposed method can simultaneously extract the three components in high yields and was proved to be a more rapid method with a lower solvent consumption. The optimized HPLC–photodiode array detection analysis was validated to have good linearity, precision, accuracy, and sensitivity. The developed MAE followed by RP‐HPLC is a fast and appropriate method for the simultaneous extraction and determination of rutin, forsythiaside A, and phillyrin in the fruits of F. suspensa.     

An Economical Method for Isolation of Dioscin from Dioscorea nipponica Makino by HSCCC Coupled with ELSD, and a Computer-Aided UNIFAC Mathematical Model

An economical method for isolation of dioscin from Dioscorea nipponica Makino by high-speed counter-current chromatography (HSCCC) was successfully developed by using a UNIFAC mathematical model coupled with computer-aided counter-current chromatography solvent-selection software (CCC-SSS) for separate preparation of the components of the solvent system (i.e., the stationary and mobile phases). The solvent system n-hexane–ethyl acetate–ethanol–water 2:5:2:5 (v/v) was selected to demonstrate the feasibility of the approach. A comparative study was also carried out on different methods for preparation of the solvent system, namely conventional preparation of the mobile and stationary phases together in the same vessel and the method developed for separate preparation of the phases. The results indicated that purity and recovery of dioscin were no different when solvent systems prepared by the different methods were used for HSCCC separation. Much less n-hexane, ethyl acetate, and ethanol was used when the mobile and stationary phases were prepared separately, however. This was not only environmentally sensible, but also enabled conservation of resources. Use of the UNIFAC mathematical model combined with the CCC-SSS technique for separate preparation of the components of the solvent system in HSCCC is reported and explained. It is a simple and economical means of isolating pure dioscin from Dioscorea nipponica Makino.     

Strategy for developing and optimizing liquid chromatography methods in pharmaceutical development using computer-assisted screening and Plackett-Burman experimental design

We describe a three-step method development/optimization strategy for HPLC assay/impurity methods for pharmaceuticals, which include multiple-column/mobile phase screening using a system equipped with a column-switching device, further optimization of separation by using multiple organic modifiers in the mobile phase, and multiple-factor method optimization using Plackett-Burman experimental designs. In the first two steps, commercially available chromatography optimization software, DryLab, was used to perform computer simulations. This allows the method developer to evaluate each condition (one column/mobile phase combination) with retention data from two scouting gradient runs. This approach significantly reduces the number of runs in method development. After a satisfactory separation was obtained, we used a method optimization step with Plackett-Burman experimental designs. The purpose of the 16-injection set experiments was to evaluate nine method factors with regard to method precision, accuracy, sensitivity and specificity. The results provided logical justifications in selecting method parameters such as column temperature, detection wavelength, injection volume, and sample solvent, etc. In data analysis, instead of the traditional mathematical manipulations, we used the graphical methods to examine and present data by creating the so-called main effect plots. Because replicates of design points were not run, the data did not allow the testing of statistical significance. However, it provided visual presentations in a way that is easy to understand for the method developer and end user alike.