气液色谱法研究醇类在芳烃中的缔合溶液热力学

用气液色谱法测量了不同温度下C~1-C~4醇类的各异构物在二苯甲烷、联苄、二苯乙炔、二苯甲酮及二苯亚砜中的无限稀活度系数γ~i、偏摩尔过量焓H^E~i及偏摩尔过量熵S^E~i。用Kretschmer-Wiebe 模型计算各醇类在二苯甲烷、联苄、二苯乙炔中的自身缔合常数K~A, 得到在同一溶剂中, C~1-C~4醇类, K~A减小次序。用同一模型计算各醇类在二苯甲酮、二苯亚砜中的交叉缔合常数K~A~B, 得到在同一溶剂中, K~A~B减小次序。     

含3,5-二甲基二氮杂萘酮联苯结构聚醚酰亚胺的合成与性能

由4-[(3,5-二甲基-4-羟基)苯基]-2,3-杂萘-1-酮与4-氯-N-苯基邻苯酰亚胺通过亲核取代反应、水解反应和脱水反应合成了一种新型不对称含二氮杂萘联苯结构的二酐单体,并对其进行结构表征.由新型二酐单体与市售的二胺单体通过“一步法”溶液聚合反应合成了5种含二氮杂萘酮联苯结构的聚醚酰亚胺.通过FTIR和¹HNMR方法研究了聚合物的结构及性能.结果表明,该类聚合物既具有较高的耐热性能,又可以在室温下溶解于非质子极性溶剂,如N-甲基吡咯烷酮和间甲酚等.     

气液色谱法研究二元混合固定液的无限稀活度系数

用气液色谱法测定若干烃类溶质在二元混合固定液中的无限稀活度系数,所研究的二元混合液为具有不同极性的四种类型:(1)正廿二烷-正十六烷;(2)邻苯二甲酸二壬酯-角鲨烷;(3)环丁砜-碳酸丙烯酯;(4)环丁砜-己二腈。用最小二乘法拟合三元系的Flory-Huggins公式,得到各种相互作用参数。     

气液色谱法研究聚合物/溶剂体系气液平衡

 用气液色谱法测定了聚二甲基硅氧烷（PDMS）／溶剂、聚甲基丙烯酸甲酯（PMMA）／溶剂体系在不同温度下以质量分数表示的无限稀溶剂活度系数和Flory－Huggins相互作用参数。应用UNIFAC和UNIFAC－FV模型对PDMS／溶剂、PMMA／溶剂体系中以质量分数表示的无限稀溶剂活度系数进行了估算。结果表明,用这两个模型预测PDMS／溶剂、PMMA／溶剂体系中的无限稀溶剂活度系数有待修正或采用其它模型进行估算。     

液-液溶解度法与气-液色谱法研究溶剂-溶剂的相互作用

测量了角鲨烷(B)+邻苯二甲酸二丁酯(C)的溶解度相图, 应用HSFH二元系公式推算得相互作用参数Abc; 用气-液色谱测量了若干正构烷烃、环烷烃用作探测溶质(A)在(B+C)混合溶剂中的无限稀活度系数, 应用HSFH三元系公式推算得相互作用参数Abc, 两者符合热力学一致性。     

气液色谱法测量芳烃在芳烃衍生物中的活度系数

用气液色谱法测量了C_6～C_8芳烃在芳烃衍生物中的无限稀活度系数。以Hildebrand-Scatchard-Flory-Huggins公式进行处理,得到了非极性或微极性溶剂的溶解度参数δ,以修正的Hildebrand-Scatchard-Flory-Huggins公式进行处理,得到了芳烃溶质与各极性溶剂相互作用常数ι_(12)。     

气液色谱法研究聚合物/溶剂体系气液平衡

用气液色谱法测定了聚二甲基硅氧烷（PDMS）／溶剂、聚甲基丙烯酸甲酯（PMMA）／溶剂体系在不同温度下以质量分数表示的无限稀溶剂活度系数和Flory－Huggins相互作用参数。应用UNIFAC和UNIFAC－FV模型对PDMS／溶剂、PMMA／溶剂体系中以质量分数表示的无限稀溶剂活度系数进行了估算。结果表明,用这两个模型预测PDMS／溶剂、PMMA／溶剂体系中的无限稀溶剂活度系数有待修正或采用其它模型进行估算。     

~1H NMR法测量N-甲基-2-吡咯烷酮、环丁砜N,N-二甲基甲酰胺、N,N-二甲基乙酰胺、γ-丁内酯与某些芳烃的分子配合常数

从石油馏分中提取芳烃、烯烃、二烯烃和炔烃等组分具有重大的经济价值.通常提取这些组分的方法为液-液萃取或气-液萃取.效果较佳的萃取剂有N*甲基-2-吡咯烷酮(NMP)、环丁砜、N,N-二甲基甲酰胺(DMF)、N,N-二甲基乙酰胺(DMA)和γ-丁内酯(γ-BL)等.为了揭示这些萃取剂萃取芳烃的机制,作者曾测量NMP、DMF、DMA、环丁砜与某些芳烃构成二元系的过量体积,用紫外-可见分光光度法测量NMP与某些芳烃的分子配合常数以及用气液色谱法测量环丁砜与某些芳烃的分子配合常数.本文报道以四氯化碳作为惰性稀释剂,用~1H NMR方法测量NMP等萃取剂与C_6～C_9芳烃的分子配合常数.     

气相色谱法测定非极性（弱极性）溶质在盐十环丁砜溶液中的无限稀释活度系数

以往,气相色谱法测定溶质的无限稀释热力学参数主要集中于单组分溶剂或混合非电解质溶剂为固定液的体系。对于非水电解质溶液为固定液的体系则很少涉及。本文将气相色谱法推广用于测定非极性、弱极性非电解质溶质在盐(NaI、KI、KCNS)十环丁砜溶液中的无限稀释活度系数γ_1~∞。     

非水溶液盐效应的气液色谱研究——非电解质(烃、芳烃、氯代烃、酮)+盐(NaI、NaSCN、KSCN)+碳酸丙烯酯体系

由于碳酸丙烯酯(PC)具有较宽的液相区间(mp:224.0K,bp:514.9K)、较高的介电常数(64.92,298.15K)和较大的偶极矩(4.94D),它是一个在工业和科学研究中有广泛应用的非质子型极性溶剂。已有大量文献就PC溶液中电解质-PC、非电解质-PC和离子-离子间的相互作用情况作了报导。对于非电解质-电解质-PC三元系中溶质-溶剂间的相互作用情况还缺乏了解。本文希望通过测定非电解质溶质在PC的电解质溶液中的无限稀释活度系数γ_1~∞,对非水溶液中的溶质-溶剂作用情况有新的了解。气液色谱法(CLC)是测定无限稀释溶液活度系数的有效方法之一。作者曾利用GLC测定了一些烃、氯代烃、醇、酮在环丁砜电解质溶液中的无限稀释活度系数和盐效应常数.     

Application of mass spectrometer-inverse gas chromatography to study polymer-solvent diffusivity and solubility

The application of a mass spectrometer detector in capillary column inverse gas chromatography is shown to be a valuable tool in the measurement of diffusion and solubility in polymer-solvent systems. The component specific detector provides excellent results for binary polymer-solvent systems, but it is particularly valuable because it can be readily applied to multicomponent systems. Results for a number of infinitely dilute solvents in poly(vinyl acetate) (PVAc) are reported over a range of temperature from 60 to 150 degrees C. Results are also reported for finite concentrations of toluene and methanol in PVAc from 60 to 110 degrees C. Finally, the technique was applied to study the effect of finite concentrations of toluene on the diffusion coefficients of THF and cyclohexane in PVAc. The experimental data compare well with literature values for both infinite and finite concentrations, indicating that the experimental protocol described in this work is sound.     

Limiting activity coefficients of triethylamine in 30 solvents by a simple gas-liquid chromatographic method

Limiting values of the Raoult's-law activity coefficients of triethylamine in 30 solvents at 298.15 K have been obtained by a simple procedure based on the use of gas-liquid chromatography to determine the mole fraction of triethylamine in the vapour above dilute solutions. Where comparisons can be made, there is good agreement with literature values and with values derived from liquid-liquid distribution coefficients measured in this work.     

Volumetric studies of cholesterol in basic and inert solvents from 25 to 55°C

The densities of cholesterol solutions in several proton acceptor solvents (benzonitrile, N,N-dimethylacetamide, N,N-dimethylformamide, N,N,N',N'-tetramethylurea, hexamethylphosphoramide, dibutylether, dibutylamine) and in benzene,n-heptane and 1-heptanol, from 25 to 55°C have been measured. The calculated apparent molar volumes of cholesterol are independent of concentration in solution. The standard partial molar volumes of cholesterol in the solvents whose molecules contain linear hydrocarbon chains (dibutylether, dibutylamine,n-heptane and 1-heptanol) show considerably lower values than those in the remaining media. The observed volume contraction is likely to be due to interactions of van der Waals type. The measured thermal expansion coefficient of cholesterol solutions and of cholesterol in an infinitely dilute solution in all the examined systems, are higher than the thermal expansion coefficients of the pure solvents. It has been found that this difference between the limiting thermal expansion coefficients of cholesterol containing systems and that for the pure solvent is affected by the solvent polarity.     

内压与Henry常数

建立了一个气体溶解度的新模型,它实际上是Pierotti理论的修正,按照这个模型,稀溶液中的溶质被视为虚拟的完全气体,Henry常数则是1mol完全气体的压力与一个Boltzmann因子的乘积,这个因子取决于溶质分子周围溶剂的内压。对若干气体在有机溶剂和聚合物中溶解度数据检验结果表明,这个模型能满意地用来描述Henry常数随温度的变化规律。计算得到的稀溶液形成的偏摩尔热力学函数也与实验值吻合。     

气液色谱有限浓度法研究醇类在芳烃溶剂中的自缔合及交叉缔合

气液色谱有限浓度法研究醇类在芳烃溶剂中的自缔合及交叉缔合王毅琳,周效贤,李松林,郑国康（兰州大学化学系,兰州,７３００００）关键词醇,自缔合,交叉缔合前文［１］用气液色谱有限浓度法研究了Ｃ４各正构醇在角鲨烷中的活度系数．本文报道在３１３．１５Ｋ下对Ｃ...     

Activity coefficients at infinite dilution of organic solutes in the ionic liquid 1-ethyl-3-methylimidazolium trifluoromethanesulfonate using gas–liquid chromatography at T = (313.15, 323.15, and 333.15) K

Activity coefficients at infinite dilution were determined for 24 solutes (n-alkanes, alk-1-enes, alk-1-ynes, cycloalkanes, alkylbenzenes, and alcohols) in the ionic liquid 1-ethyl-3-methylimidazolium trifluoromethanesulfonate by gas-liquid chromatography at three different temperatures T = (313.15, 323.15, 333.15) K. The partial molar excess enthalpy values at infinite dilution were calculated from the experimental results over the same temperature range. Selectivities and capacities at infinite dilution for the hexane/benzene and methanol/benzene separation problems were calculated from experimental infinite dilution activity coefficient values. The activity coefficients, enthalpies, selectivities, and capacities are discussed and compared to literature values for other ionic liquids, as well as industrial molecular solvents.     

Activity coefficients in concentrated electrolytes: a comparison of the Brunauer-Emmett-Teller (BET) model with experimental values

Electrolyte mean ionic activity coefficients, γ_±, are calculated from the Stokes-Robinson application of the Brunauer-Emmett-Teller (BET) adsorption model for seven electrolytes (NaOH, HCl, KOH, CaCl₂, LiCl, LiBr and Ca(NO₂)₃). Only two model parameters are needed, which are derived from water vapor pressure measurements. Results were compared with experimental mean ionic activity coefficients (γ_±). Because the standard state for the BET model is the anhydrous electrolyte rather than the infinitely dilute solution, it is necessary to adjust for the differing standard states by comparing the BET and experimental γ_± values at one ‘anchoring’ concentration. The higher this ‘anchoring’ concentration, the better is the agreement between the BET and experimental mean ionic activity coefficients over the entire concentration (molality, mol kg⁻¹) range except at the two extremes of nearly pure water and nearly pure electrolyte. This is because the BET model lacks a finite limit at infinite dilution, and the experimental data are referenced to the infinite dilute solution. The BET model is well-behaved and in good agreement with experimental data on γ_±.     

Role of solvents in the synergistic extraction of metal complexes

The extraction equilibria of Co(II) and Zn(II) complexes with 4-benzoyl-2,4-dihydro-5-methyl-2-phenyl-3H-pyrazol-3-one in the presence of tributyl phosphate have been investigated in eight ‘inert’ solvents employing the radioisotopes cobalt-60 and zinc-65. The activity coefficients of different species in the organic phase and the solubility parameter of the adduct have been calculated with the help of regular solution theory. A regularity is observed in the correlation between the adduct formation constant and the activity coefficient of the species.     

Solubilities of families of heterocyclic polynuclear aromatics in organic solvents and their mixtures

The solubilities of anthracene, acridine, xanthene, thioxanthene, carbazole, dibenzofuran, and dibenzothiophene have been experimentally determined in benzene, cyclohexane, thiophene, and pyridine from ambient temperature to approximately 440 K. The results have been correlated using the classical equation for solid-liquid solubility to obtain the experimental activity coefficient of the solute in the solvent. These experimental activity coefficients have been regressed, using three common solution models, to find the binary interaction parameters needed in those models. The solubilities of biphenyl, dibenzofuran, and dibenzothiophene have been experimentally determined in five binary mixtures of the solvents. The experimental activity coefficients have been found and compared to the values predicted by the four solution models, using the binary interaction parameters obtained from the solubilities in the pure solvents and solventsolvent binary interaction parameters obtained from literature vaporliquid equilibria data. The effect of substituting various heteroatoms into the ring structure has been discussed.     

Predicting solubility of anthracene in non-aqueous solvent mixtures using a combination of Jouyban-Acree and Abraham models

Quantitative structure property relationships were proposed to calculate the binary interaction terms of the Jouyban-Acree model using coefficients of Abraham solvational models. The applicability of the proposed methods for reproducing solubility data of anthracene in binary solvents has been evaluated using 56 solubility data sets collected from the literature. The mean percentage deviation (MPD) of experimental and calculated solubilities, using predicted mole fraction solubility of anthracene in solvents 1 and 2, has been computed as a measure of accuracy and the MPD of the proposed methods were 5.5 and 4.2%. The accuracy of the method was compared with that of a previously reported method where the MPD was 14.4% and the mean differences between proposed and previous methods was statistically significant. To provide a predictive model, solubility of anthracene was computed using Abraham solvational models and employed to predict the solubility in binary solvents using derived model constants of Jouyban-Acree model and the obtained MPDs were 37.9 and 22.2%, respectively.