苯甲醛在离子液体中的电化学行为

应用线性扫描循环伏安法、方波循环伏安法和计时电量法测定苯甲醛在3种离子液体C4M IMBF4、C6M IMBF4和C8M IMBF4中的电化学行为.实验表明,在C4M IIVIBF4离子液体中苯甲醛于GC电极上的还原包含两个连续、不可逆单电子过程,对应的方波I~E曲线峰电位Ep为-1.39 V和-1.69 V,估算的扩散系数分别为D1=1.5×10-8cm2/s和D2=1.3×10-8cm2/s.而在C6M IMBF4和C8M IMBF4离子液体中,则苯甲醛于GC电极仅显示一个电流峰,这可能是因为C4M IMBF4的碱性较C6M IMBF4和C8M IMBF4弱的缘故;而电流的衰减时间亦依C4M IMBF4,C6M IMBF4,C8M IMBF4,次序增长,并会导致更慢的异相动力学过程.     

不同离子液体中硝基苯的电化学还原

研究了硝基苯在N-甲基咪唑对甲基苯磺酸([Mim][PhSO3])和1-丁基-3-甲基咪唑六氟磷酸([Bmim][PF6])两种离子液体中的电化学还原反应.循环伏安法测试显示,硝基苯在[Mim][PhSO3]中只出现一个还原峰,是一个受扩散控制的不可逆电化学反应,而在[Bmim][PF6]中出现两对氧化还原峰,表明其还原产物随离子液体性质的不同而异.     

二茂铁在几种离子液体中的迁移行为

采用循环伏安法研究了二茂铁(Fc)在几种离子液体中的迁移行为. 计算了Fc在各离子液体中的扩散系数和粘度系数,探讨了离子液体粘度与离子液体结构之间的关系. 实验结果表明, 离子液体的粘度随阳离子取代基碳链长度的增加而增加, 随阴离子对称性的增加而增加.     

室温离子液体电化学稳定性的研究

随着绿色化学的发展,人们对室温离子液体(RTIL)的研究已日益备受重视,较早发现的如由二烷基咪唑正离子(EMI^ )和氯化铝负配离子(A1Cl4^-)组成的离子液体(氯化铝类离子液体),具有许多优良的物理化学性质,如电导率高,在高温下仍有很低的蒸汽压,电化学稳定性好(即有宽阔的电化学窗口),     

Aggregation Behavior of Pyridinium-Based Ionic Liquids in Aqueous Solution

Aggregation of the ionic liquids 1-butylpyridinium tetrafluoroborate, 1-butylpyridinium triflate, 1-butyl-2-methylpyridinium tetrafluoroborate, 1-butyl-3-methylpyridinium tetrafluoroborate, 1-butyl-4-methylpyridinium tetrafluoroborate, 1-butyl-3-methylpyridinium dicyanamide, and 1-octyl-3-methylpyridinium tetrafluoroborate in aqueous solution has been characterized at 298.15 K through density, ρ, speed of sound, u, and conductivity, σ, measurements. In addition, apparent molar volumes, V _φ , and isentropic compressibilities, κ _s , have been calculated from the experimental data. To characterize the formation of aggregates, the critical aggregation concentration of the ionic liquids, cac, the degree of ionization of the aggregates, β, and the standard Gibbs energy of aggregation, DG_m^°\Delta G_{\mathrm{m}}^{\circ}, have been obtained, with good agreement between results derived from the different methods. The dependence on the structural variation of these ions has been analyzed by comparing the results obtained for this series of ionic liquids.     

离子液体中电生成CoIL催化行为研究

在离子液体中, 研究了CoL(钴希夫碱配合物)的电化学行为, 并进一步探讨了其对氯苄还原以及PhCH₂Cl与CO₂反应的催化特性. CoL在离子液体中呈现一对由扩散控制的单电子可逆氧化还原峰. 通过电化学行为研究发现, 其氧化还原峰电位不易随金属有机配合物的配体和离子液体阴离子的变化而变化, 并求得了相应的扩散系数. 同时, 循环伏安图表明该体系能对PhCH₂Cl的还原起催化作用, 反应经历一个ECE过程. 另外, 该体系还能催化PhCH₂Cl与CO₂反应, 通过恒电位电解得到(PhCH₂)₂CO, 说明常温常压下, CO₂可以通过CoL催化在离子液体中进行固定, 得到新的有机化合物.     

离子液体中电生成CoL催化行为研究

在离子液体中,研究了CoL(钴希夫碱配合物)的电化学行为,并进一步探讨了其对氯苄还原以及PhCH_2Cl与CO_2反应的催化特性.CoL在离子液体中呈现一对由扩散控制的单电子可逆氧化还原峰,通过电化学行为研究发现,其氧化还原峰电位不易随金属有机配合物的配体和离子液体阴离子的变化而变化,并求得了相应的扩散系数.同时,循环伏安图表明该体系能对PhCH_2Cl的还原起催化作用,反应经历一个ECE过程,另外,该体系还能催化PhCH_2Cl与CO_2反应,通过恒电位电解得到(PhCH_2)_2CO,说明常温常压下,CO_2可以通过CoL催化在离子液体中进行固定,得到新的有机化合物。     

Nanostructuration Effect on the Thermal Behavior of Ionic Liquids

This work shows how the nanostructuration of ionic liquids (ILs) governs the glass and melting transitions of the bistriflimide imidazolium‐based [C_nC₁im][NTf₂] and [C_nC_nim][NTf₂] series, which highlights the trend shift that occurs at the critical alkyl size (CAS) of n=6. An initial increase in the glass temperature (T_g) with an increase in the alkyl side chain was observed due to the intensification of the dispersive interactions (van der Waals). Above the CAS, the ?CH₂? increment has the same effect in both glass and liquid states, which leads to a plateau in the glass transition after nanostructuration. The melting temperature (T_m) of the [C_nC₁im][NTf₂] and [C_nC_nim][NTf₂] series presents a V‐shaped profile. For the short‐alkyl ILs, the ?CH₂? increment affects the electrostatic ion pair interactions, which leads to an increase in the conformational entropy. The ?CH₂? increment disturbs the packing ability of the ILs and leads to a higher entropy value ( ) and consequently a decrease in T_m. Above the CAS, the ?CH₂? contribution to the melting temperature becomes more regular, as a consequence of the nanostructuration of the IL into polar and nonpolar domains. The dependence of the alkyl chain on the temperature, enthalpy, and entropy of melting in the ILs above the CAS is very similar to the one observed for the alkane series, which highlights the importance of the nonpolar alkyl domains on the ILs thermal behavior.     

短链羟基甲基咪唑离子液体的合成与电化学性能

通过2-(2-氯乙氧基)乙醇和2-溴乙醇分别与1-甲基咪唑反应,合成乙醇基甲基咪唑溴(EMIMBr)和乙氧基乙醇基甲基咪唑氯(EEMIMCl)2种羟基咪唑离子液体,用1H NMR和FT-IR表征结构,TG和DSC进行热性能测试,并研究了其电化学性能.结果表明,羟基类咪唑离子液体具有高的热稳定性,这种含醚氧键和羟基的短链离子液体有利于电导率的提高,导电机理符合Vogel-Tmman-Fulcher (VTF)方程.乙醇基甲基咪唑溴和乙氧基乙醇基甲基咪唑氯的室温电导率分别为1.2×10-4和1.7×10-4 S/cm.对于碳酸丙二醇酯、乙氧基乙醇基甲基咪唑氯和钾盐体系,室温电导率最高可达3.82×10-3 S/cm.乙氧基乙醇基甲基咪唑氯的电化学窗口为3.4V.     

Phase Transitions and Electrochemical Properties of Ionic Liquids and Ionic Liquid—Solvent Mixtures

Recent advances in studies of ionic liquids (IL) and ionic liquid–solvent mixtures are reviewed. Selected experimental, simulation, and theoretical results for electrochemical, thermodynamical, and structural properties of IL and IL-solvent mixtures are described. Special attention is paid to phenomena that are not predicted by the classical theories of the electrical double layer or disagree strongly with these theories. We focus on structural properties, especially on distribution of ions near electrodes, on electrical double layer capacitance, on effects of confinement, including decay length of a dissjoining pressure between confinig plates, and on demixing phase transition. In particular, effects of the demixing phase transition on electrochemical properties of ionic liquid–solvent mixtures for different degrees of confinement are presented.     

Behavior of Ionic Liquids Around Charged Metal Complexes: Investigation of Homogeneous Electron Transfer Reactions Between Metal Complexes in Ionic Liquids

The second-order electron transfer reaction between the photo-excited triplet state of [Zn(TPP)]* (TPP?=?5,10,15,20-tetraphenylporphyrin) and [Co(sep)]³⁺ (sep?=?sepulchrate?=?1,3,6,8,10,13,16,19-octaazabicyclo[6.6.6]eicosane) was investigated in three ionic liquids (ILs, 1-R-3-methylimidazolium bis(trifluoromethylsulfonyl)imide with R?=?butyl, pentyl, and hexyl) and in acetonitrile. Results of electrochemical and kinetic measurements indicated that ILs dissociate in the vicinity of charged metal complexes and at electrodes, although the dissociated anionic and cationic components of the ILs seem to exist as pairs around the metal complexes. Second-order rate constants for the electron transfer reaction are 1.88?×?10⁹, 3.65?×?10⁷, 2.63?×?10⁷, and 2.01?×?10⁷ kg·mol^?1·s^?1 in acetonitrile and in the butyl, pentyl and hexyl ILs, respectively, at 298 K, after correction of the contribution of diffusion. The average slope of the plot of the logarithmic second-order rate constants observed in acetonitrile and ILs against the logarithmic viscosity of each solvent was ??0.84. However, the slope of the same plot was much steeper (??4.1) when data for only the three ILs were used. Detailed analyses of the experimental results on the basis of the Latner–Levin cross relation and the Marcus theory lead to the conclusion that the solvent properties such as the dielectric constant and refractive index around the polarized/charged transition states are different from those for the bulk ILs: observed self-exchange rate constants did not exhibit the Pekar factor dependence when dielectric constants and refractive indices for bulk ILs are used.     

Brønsted酸性离子液体中电化学合成树枝状聚苯胺

BrФnsted acid ionic liquids were successfully applied to the electrochemical synthesis of polyaniline films on platinum electrode surfaces by using cyclic voltammetry. The scanning electron micrographs showed distinct changes in morphological structures. The films exhibited quite dense packing and good ordering of polymer dendrite as compared with those prepared using conventional hydrochloric acid, indicating that Bronsting acid ionic liquids might be promising alternatives to dual medium-dopants in the synthesis of conducting polymers.     

纤维素在离子液体中的溶解性能及机理研究进展

综述了纤维素在离子液体中的溶解性能和机理的研究进展,总结了纤维素在离子液体中发生溶胀、溶解的物化特性;指出纤维素在离子液体中的溶解属于直接溶解,溶解温度、溶解时间、加热方式、离子液体结构及是否含水等均可影响纤维素的溶解性能;分析了离子液体体系中纤维素应用方面存在的问题,即用于溶解纤维素的离子液体种类有限,溶解机理尚无成熟和完整的理论模型,有待于进一步研究.     

Preparation of Nanoparticles and Diffusion Behavior of Metal Ions in Ionic Liquids

Ionic liquids (ILs) have attracted much attention as tunable liquids because of their unique structures and properties. However, the mechanisms of chemical reactions and solute diffusion in ionic liquids are still unknown. This article summarizes our previous studies and recent results on the mechanisms of metal particle formation and solute diffusion in ionic liquids, focusing on the local structure of ionic liquids. It was found that the shape and size of metal particles formed in ionic liquids using electron beams or X-rays are strongly influenced by the local structure. In the study of the diffusion behavior of metal ions in ionic liquids, we proposed a hopping-like diffusion model and proposed that this behavior could be strongly influenced by local structures such as hole concentration and/or domain structures.     

离子液中的生物催化反应

室温离子液（RTILs）是指主要由有机阳离子和无机或有机阴离子构成的在室温或接近室温下呈液态的盐类．它完全由离子构成，具有许多分子溶剂不可比拟的性能如：低的蒸汽压、高的电传导性、宽的温度范围（300-400℃）、大的电化学窗口和对有机、无机、及高分子化合物好的溶解性等．     

具有药物活性的离子液体

离子液体阴阳离子的可设计性使其具有可控溶解性、独特表面活性、高热稳定性、增强的生物利用率和生物活性,这些特点使离子液体在消除同质多晶现象、改变药物传输模式及可包含传统药物组分等方面具有优势,成为当前离子液体研究领域的热点之一。本文对离子液体在医药领域的应用做了全面的阐述,主要介绍了近十年来离子液体在活性药物组分、抗菌剂及除草剂方面的成果,探讨了当前存在的问题及研究方向,并对其应用做了展望。     

Electrodeposition in Ionic Liquids

Due to their attractive physico‐chemical properties, ionic liquids (ILs) are increasingly used as deposition electrolytes. This review summarizes recent advances in electrodeposition in ILs and focuses on its similarities and differences with that in aqueous solutions. The electrodeposition in ILs is divided into direct and template‐assisted deposition. We detail the direct deposition of metals, alloys and semiconductors in five types of ILs, including halometallate ILs, air‐ and water‐stable ILs, deep eutectic solvents (DESs), ILs with metal‐containing cations, and protic ILs. Template‐assisted deposition of nanostructures and macroporous structures in ILs is also presented. The effects of modulating factors such as deposition conditions (current density, current density mode, deposition time, temperature) and electrolyte components (cation, anion, metal salts, additives, water content) on the morphology, compositions, microstructures and properties of the prepared materials are highlighted.     

功能化的离子液体: 手性离子液体的合成与应用

手性在化学中占有重要地位. 利用离子液体特殊的结构可调性质, 将手性引入到离子液体结构中, 可以获得具有手性的离子液体, 从而可能广泛应用于手性合成、手性分离、手性催化等领域. 汇总了至今报道的手性离子液体, 从离子液体功能化设计的角度探讨其合成方法. 针对手性离子液体可能的发展方向, 再次强调了由天然手性源设计合成离子液体遵循的三个标准.     

低聚离子液体的体相与界面及其电化学储能应用

近年来,随着单阳离子液体的发展,新型低聚物离子液体被合成并应用。这类离子液体可看作是由几个重复的单阳离子组合而成,可以通过改变阳离子带电基团、间隔连接的长度或种类、末端链的长度以及阴离子种类来获得更多不同的结构。因此,低聚离子液体有更复杂的微观结构和内部相互作用,决定了其多特征的物化性质和电化学特性,有望满足更多对溶剂性能有特定要求的应用。例如,与单阳离子液体相比,低聚离子液体具有更大的可调节性、更宽的液态温度范围、更高的热稳定性等优点,使其在电化学储能设备中得到越来越多的应用,如用作超级电容器和锂离子电池的电解液。在本综述中,我们系统地总结并详细解释了低聚离子液体的性质和结构（包括单个离子的结构和本体液内部的纳米组织）之间的关联,主要是双阳离子液体和三阳离子液体;概括了低聚离子液体作为超级电容器和锂离子电池的电解液的相关研究,重点阐述了由低聚离子液体和不同类型电极组成的双电层的结构和性能,以及与相应单阳离子液体电解液的比较结果;提供了降低低聚离子液体粘度和加速离子扩散的优化措施,提出了低聚离子液体电解液未来可能面临的主要问题和发展前景。     

咪唑类离子液体的研究进展

咪唑类离子液体以其独特的物理化学性质和在众多领域的巨大应用潜能而引起广泛的关注.本文结合我们的研究工作,对近期国际上关于咪唑类离子液体的气-液和液-液平衡、咪唑类离子液体的表面活性剂行为、传统表面活性剂在咪唑类离子液体中聚集体的形成、表面活性剂/水(油)/咪唑类离子液体三元体系超分子自组装体形成等方面的一些主要研究成果进行了综合评述.在此基础上,提出了进一步开展非传统表面活性剂/离子液体体系超分子自组装体及离子液体结构对聚集体形成、结构、性质影响等研究的设想.