基于分子表面静电势参数分析溶剂的极性性质

用理论计算导出的分子表面静电势参数∏和б2tot对一系列溶剂的五种极性指标ETN、π*、Py、SPP和S'进行了相关分析,与Catalan的理论热力学分析结果进行了比较.结果显示:S'是一个适用性很好的溶剂极性参数,而质子性溶剂的ETN值、芳香化合物和多卤代化合物的π*值和SPP值则存在着一定的非极性因素.     

含偶氮苯基团的三枝状凝胶因子的合成和凝胶性质研究

设计合成了一种中心为三乙基氨基,酰胺基作为氢键连接基团,柔性的烷基链连接偶氮苯基团的含多种分子间弱相互作用的三枝状有机凝胶因子1.由于偶氮苯基团处于分子的外缘,在THF溶液中,凝胶因子1表现出良好的光致变色行为.凝胶性能测试中,分子间存在氢键作用、π-π相互作用等使得该化合物在醇类、有机酸类和乙腈等极性溶剂中极易形成稳定的有机凝胶.在少数的非极性溶剂,如正己烷和环己烷中也可以形成稳定凝胶,并且随着溶剂极性的不同,凝胶形貌呈现出规则的纤维状或带状结构.     

氮氧自由基的研究——Ⅷ.关于溶剂极性经验参数的讨论

作者测定了有机溶剂-水二元混合溶剂体系中2,2,6,6-四甲基哌啶-1-氧自由基(TMPO)的ESRa_N 值.这类混合溶剂体系中 a_N-m 关系可归属有机二元混合溶剂体系的四种典型线型关系.比较了几种溶剂极性经验参数,说明各种经验极性参数-m 关系图的差异是特定模型反应中溶剂分子与溶质分子间相互作用不同的反映.对二元混合溶剂体系而言,a_N-E_T(30),a_N-Z 一般不具有线性关系,认为溶剂极性经验参数是溶剂(包括溶剂混合物)对模型化合物溶剂化能力的标度,给出了在各种溶剂体系中的 a_N 测定值,作为溶剂对中性偶极分子相对溶剂化能力的经验标度.     

氮氧自由基的研究VIII. 关于溶剂极性经验参数的讨论

作者测定了有机溶剂-水二元混合溶剂体系中2,2,6,6-四甲基哌啶1-氧自由基(TMPO)的ESRaN 值. 这类混合溶剂体系中aN-m关系可归属有机二元混合溶剂体系的四种典型线关系. 比较了几种溶剂极性经验参数, 说明各种经验极参数-m关系图的差异是特定模型反痘中溶剂分子与溶质分子间相互作用不同的反映. 对二元混合溶剂体系而言, aN-Er(30),aN-Z一般不具有线线性关系, 认为溶剂极性经验参数是溶剂(包括溶剂混合物)对模型化合物溶剂化能力的标度, 给出了在各种溶剂体系中的aN 测定值, 作为溶剂对中性偶极分子相对溶剂化能力的经验标度.     

7-吡啶吲哚同分异体结构与电子光谱性质的理论研究

运用密度泛函理论对7-吡啶吲哚可能存在的构型进行优化,计算异构体的几何构型、电子结构、前线分子轨道;应用含时密度泛函理论计算了异构体b,c和e的电子光谱性质以及溶剂效应对光谱性质的影响.结果表明,溶剂极性的增加使b的电子光谱蓝移,而c和e的电子光谱红移,且溶剂极性对最大吸收波长影响幅度较小.前线分子轨道分析,表明该类化合物的主要吸收光谱主要对应于分子中的HOMO→LUMO电子跃迁,且为π→π*跃迁.     

如何理解混合溶剂的良、劣性

对于高聚物,混合溶剂的性能往往不能直接从相应的两种组分溶剂的性能来推演。本文从溶度参数理论、高分子对溶剂的择优吸附以及体系的分子特征,尤其是基于分子间相互作用对混合溶剂的良劣性作了较为详细的讨论。     

杂多阴离子的相转移化学 Ⅰ.取代的Keggin及Dawson结构杂多阴离子在非极性溶剂中的溶剂化行为研究

利用四庚基溴化铵将Keggin结构的杂多阴离子ZW~1~1O~3~9M(H~2O)^n^-(Z=Si,Ge,P,M=Ni^2^+,Cu^2^+,Cr^3^+,Co^2^+,n=4～6)和Dawson结构的杂多阴离子P~2W~1~7O~6~1M(H~2O)^n^-(M=Ni^2^+,Cu^2^+,Cr^3^+,Co^2^+,n=7,8) 从水溶液中转移至非极性溶剂(苯或甲苯)中,并观察到在水溶液中难以进行的配位水的脱去反应,形成配位不饱和的杂多阴离子.当加入Lewis碱如丙酮,吡啶等,可迅速恢复饱和配位,其电子吸收光谱也相应变化,基本恢复到配位饱和时的数值,有ESR信号.实验表明,在非极性溶剂中,配体之间相互进行的取代反应,吡啶的配位能力最强, 发生了取代反应ZW~1~1O~3~9M(L)^n^-+Py→ZW~1~1O~3~9M(Py)^n^-+L(L=丙酮,乙腈等).同时我们也研究了温度,杂多阴离子浓度,惰性气体流量对杂多阴离子在非极性溶剂中的溶剂化行为的影响,得到了相转移的一般规律,为杂多阴离子在非极性溶剂中的催化研究提供了理论依据     

反气相色谱法对八异辛基倍半硅氧烷热力学性质的表征

采用反气相色谱技术,以23种溶剂为探针分子,表征了八异辛基倍半硅氧烷(octaisooctyl-POSS)的热力学性质,包括摩尔溶解焓、分子间相互作用参数、质量活度系数、Hansen溶度参数,并有效判断了溶剂探针分子与共聚物分子间的相互作用以及共聚物在这些溶剂中的溶解性.结果表明,在实验温度范围内(343 ～393 K),烷烃、芳香烃、卤代烃类、乙醚以及乙酸甲酯是octaisooctyl-POSS的良溶剂,乙酸乙酯、乙酸正丙酯、乙酸正丁酯与乙酸正戊酯是中等溶剂,醇类、丙酮以及四氢呋喃是不良溶剂;Hansen溶度参数表明,octaisooctyl-POSS与烷烃分子强烈的色散作用使其在烷烃溶剂中具有优良的溶解性能.     

二元混合溶剂的NMR弛豫研究

本文测定了纯CH3OD, DMSO-d6中^2D和DMF中^1^4N的弛豫时间. 参照文献所列核四极矩偶合常数, 按公式计算它们的液体分子取向相关时间, 参照Hertz等的假设, 认为在混合溶剂中各组分的核四极矩偶合常数基本不变, 与纯质相同, 并计算了各组分分子在各个混合溶剂中的取向相关时间, 从而初步讨论了混合溶剂中各组分分子间的相互作用.     

醌型D-π-A类化合物AMTOE在不同溶剂中吸收和发射光谱的蓝移现象

采用连续介质模型(PCM)以及明确/连续的混合溶剂模型,运用密度泛函理论(DFT)和含时密度泛函理论(TD-DFT)方法,研究了溶剂极性对D-π-A类两性离子化合物1-(4-aza-4-methylphenyl)-2-trans-(4-oxyphenyl)ethane(AMTOE)分子几何、电子结构以及光谱性质的影响.计算结果表明,随着溶剂极性和超分子簇大小的增加,AMTOE基态(S0)分子几何从醌式结构向芳式结构转化.从基态(S0)到激发态(S1),化合物AMTOE醌式结构增强.从弱极性的氯仿溶液到强极性的水溶液,AMTOE分子的吸收光谱和发射光谱均发生蓝移,并且吸收光谱的蓝移程度大于发射光谱的蓝移程度,与实验现象定性一致.吸收光谱和发射光谱发生蓝移的原因是随着溶剂极性增强,HOMO轨道能级与LUMO轨道能级之间的能隙增大.对于具有明显电荷转移的AMTOE分子的溶剂化显色效应,长程矫正的含时密度泛函TD-CAM-B3LYP方法比传统的含时密度泛函TD-B3LYP方法更为合理.另外,明确/连续的混合溶剂模型能更好的描述该类体系在强极性溶剂中的溶剂化显色效应.     

The effect of solvents on the electronic absorption spectra of mesoionic 1,8,4 thiadiazolium-2-thiolate derivatives

The electronic absorption spectra of 4,5-diphenyl-, 4-pheriyl-5-(4-fluorophenyl)-, 4-phenyl-5-(4-chlorophenyI)-, and 4-phenyl-.5-methyl-1,3,4-lhiadiazolium-2-thiolates have been measured in twenty-one pure solvents, aqueous ethanol and acetone solutions and cyclohexane-chloroform mixtures. They were found to exhibit three characteristic absorption bands; the first in the range 330-440 nm, the second at 260-280 run and the third near 200 ran. The first band was assigned to n → π* transition whereas the other two bands were assigned to π →π* transition. The n → π* transition band was found to be very sensitive, and the polarity of solvents, and some correlations between well-known solvent polarity parameters and the transition energies of these compounds have been presented.     

Absorption Spectra and Photoreactivity of Para-aminobenzophenone by Time-dependent Density Functional Theory

The absorption spectral properties of para-aminobenzophenone (p-ABP) were investigated in gas phase and in solution by time-dependent density functional theory. Calculations suggest that the singlet states vary greatly with the solvent polarities. In various polar solvents, including acetonitrile, methanol, ethanol, dimethyl sulfoxide, and dimethyl formamide, the excited S1 states with charge transfer character result from π→π* transitions. However, in nonpolar solvents, cyclohexane, and benzene, the S1 states are the result of n→π* transitions related to local excitation in the carbonyl group. The excited T1 states were calculated to have ππ* character in various solvents. From the variation of the calculated excited states, the band due to π→π* transition undergoes a redshift with an increase in solvent polarity, while the band due to n→π* transition undergoes a blueshift with an increase in solvent polarity. In addition, the triplet yields and the photoreactivities of p-ABP in various solvents are discussed.     

Effect of Solvents on the Spectra of Some β-Diketones

Acetoacetanilide, benzoylacetanilide and their derivatives have been examined in ultraviolet region in a series of solvents covering a broad polarity range e. e. from chloroform (Z, 63.2) to methanol (Z .83.6). Transition energies and oscillator strengths have been calculated and transition energy (E_T) has been plotted against Z-values, a new empirical measurement of solvent polarity. A linear relationship was observed between the transition energy and Z-values for π → π* and n → π* transitions. These transitions are identified as charge transfer (c-t) transitions and with the solvents having carbonyl oxygen and sulphur atom a c-t complex formation has been suggested. Strong electron-donating substituents on phenyl group of the nitrogen atom also showed a weak to moderate n → π* transitions. These substituents have no influence on the position of the λ_max in the same solvent. Stabilization energy of the excited state of these ligands and hence the dipole moments of the excited states have been calculated in comparison with pyridinium iodide. Solvent sensitivities of these ligands have also been calculated.     

Triplet excited states of nitronaphthalenes. III. 1,4-dinitronaphthalene

Nanosecond flash photolysis of 1,4-dinitronaphthalene (1,4-DNO₂N) in aerated and deaerated solvents shows a transient species with absorption maximum at 545 nm. The maximum of the transient absorption is independent of solvent polarity and its lifetime seems to be a function of the hydrogen donor efficiency of the solvent. The transient absorption is attributed to the lowest excited triplet state of 1,4-DNO₂N. The reactivity of this state for hydrogen abstraction from tributyl tin hydride (Bu₃SnH), K_q = 3.8 × 10⁸M^?1 sec, is almost equal to that of nitrobezene triplet state which has been characterized as an n → π* state. Based on spectroscopic and kinetic evidence obtained in the present work, the triplet state of 1,4-DNO₂N behaves as an n → π* state in nonpolar solvents, while in polar solvents the state is predominantly n → π* with a small amount of intramolecular charge transfer character.     

THE Py SCALE OF SOLVENT POLARITIES. SOLVENT EFFECTS ON THE VIBRONIC FINE STRUCTURE OF PYRENE FLUORESCENCE and EMPIRICAL CORRELATIONS WITH ET and Y VALUES

Abstract— Pyrene fluorescence spectra have been run in 62 solvents of widely differing solvent polarity. As has been noted previously, the intensity ratio of the first (the 0–0 band) and third bands in vibronic fine structure of these spectra are very sensitive to solvent polarity. These I ₁/ I ₃ values, however, are not sensitive to hydrogen bonding aspects of solvent-solute interactions. Correlations are reported with Winstein's Y values and with Dimrotb's E _T values. On this basis the I ₁/ I ₃ values for pyrene fluorescence are suggested as the basis for a new empirical scale of solvent polarity, called the Py scale, which offers certain conveniences over other scales of solvent polarity.     

Stereocontrol in the cationic polymerization of N-vinylcarbazole

The dependence of the steric microstructure of cationically polymerized poly(N-vinylcarbazole) (PVK) upon catalyst, polymerization temperature, and polymerization solvent has been investigated. The effect of polymerization temperature variation was found to be small, whereas the choice of catalyst and polymerization solvent was found to have a strong influence upon the PVK steric microstructure. A correlation was found between the syndiotacticities X_s and the π^* solvent polarities of the polymerization solvents for a given catalyst. A decrease in X_s with increasing π^* solvent polarity was observed using BF₃OEt₂ and AlEt₂Cl catalysts and has been interpreted in terms of propagation via contact ion-pair ring structures reversibly formed between the active end group and a preceding repeating unit. The increase in X_s with increasing π^* solvent polarity observed with several of the catalysts investigated has been interpreted in terms of chain ion pairs whose separation increases with increasing π^* solvent polarity. The influence of the various Lewis acid catalysts upon the steric microstructures of cationically polymerized PVK allowed the following order of nucleophilicity to be established:      

Preferential Solvation in Aqueous–Organic Mixed Solvents Using Solvatochromic Indicators

Solvatochromism of the twisted intramolecular charge-transfer (TICT) fluorescence of 4-(N,N-dimethylamino)benzonitrile (DMABN) in pure water, methanol, ethanol, 1-propanol, 2-propanol, acetone, acetonitrile, and in the corresponding aqueous–organic binary mixed solvents was systematically studied and an empirical solvent polarity scale (F _B) based on the DMABN solvatochromism was defined. The F _B parameters of the explored binary mixed solvents as a function of solvent composition were analyzed by a stepwise solvent-exchange (SSE) model to clarify the preferential solvation (PS) of the probe dye in these binary mixed solvents. Solvation diagrams toward DMABN in the mixed solvents, i.e., the local solvent composition in the solvation shell of DMABN molecules was depicted as a function of bulk solvent composition to visualize the PS in these mixed solvents. For comparison, a similar PS analysis was applied to the solvatochromism of 2,6-diphenyl-4-(2,4,6-triphenylpyridinium-1- yl)phenolate (ET-30) and pyrene (Py) in these mixed solvents; the responsive PS pattern of the mixed solvents toward the specific indicator dye of DMABN, ET-30, and Py was then discussed in terms of the chemical properties of the probe dye, the properties of the mixed solvents, and the solute–solvent and solvent–solvent interactions.     

Molecular orbital calculations on solvents and other small molecules: Correlation between electronic and molecular properties ν, αMOL, π*, and β.

Molecular orbital calculation by the MINDO/3 method are reported for 50 compounds used as solvents in chemical reactions. Relationships between various parameters of electronic structure and molecular properties such as dipole moment, polarizability and Taft solvent parameters are presented. Comparison between experimental values of π* and calculated values is given.