基于离子液体的硫酸根离子选择电极的研究

将离子液体BMIMPF6应用于传感膜中制备硫酸根选择性电极,研究发现离子液体在电极中不仅能够提高传感膜的介电常数和传导速率,还与硫酸根离子发生相互作用,起到载体的功能。利用离子液体和硫脲的协同作用制备的电位传感器,对硫酸根离子在10-5～10-2 mol/L范围内有能斯特响应,同时具有pH干扰小,重复性好,响应时间快等特点,能够用于环境和生物医疗检测。     

甲基丙烯酸/丙烯酰胺双单体共聚反蛋白石光子晶体的制备

以烧结后的二氧化硅光子晶体为模板,采用溶胶凝胶法向模板间隙填充以甲基丙烯酸(MAA)和丙烯酰胺(AM)为双功能单体,N,N’-亚甲基双丙烯酰胺(BIS)为交联剂的聚合物前驱液,制备了甲基丙烯酸/丙烯酰胺共聚(PMAM)双单体反蛋白石凝胶光子晶体.通过紫外可见光谱分析表明,反蛋白石结构的凝胶膜对pH响应范围在4.0～7.0之间.由于其不受离子强度的影响,除了可以作为pH传感器外,还可以作为金属离子及生物小分子等分子印迹光子晶体传感器的基体膜.     

离子液体支撑液膜分离CO2

支撑液膜是一种在湿法冶金、生物技术以及气体分离等多个领域都有应用的重要膜分离技术。本文回顾了支撑液膜技术分离CO2的研究进展,按照液膜相的不同,分类介绍了常规载体支撑液膜和离子液体支撑液膜,指出了常规载体支撑液膜分离CO2的局限性,重点介绍了离子液体支撑液膜分离CO2的发展,分析了气体在离子液体支撑液膜中的传质机理以及常规离子液体结构、含量和支撑膜材料等对分离效果的影响;讨论了离子液体的功能化方法以及功能化离子液体支撑液膜分离CO2的渗透率、选择性和液膜稳定性;介绍了两种新的离子液体支撑液膜改进方法:聚离子液体膜与凝胶化离子液体支撑液膜。最后指出了今后用于CO2分离的离子液体支撑液膜的发展方向。     

双重热响应离子凝胶的构筑及相行为研究

传统热响应凝胶体系受限于响应机制单一以及响应温度可调性差等问题,难以满足复杂场景中对智能凝胶材料的需求.本文中提出了一种构筑双重热响应离子凝胶的简易策略,通过将改性的半晶型聚乙二醇(PEG)在离子液体(IL)中交联聚合,成功制备出兼具上临界互溶温度(UCST)以及下临界互溶温度(LCST)相行为的双重热响应离子凝胶.其中离子凝胶的UCST相行为基于PEG结晶熔融;而LCST相行为则是由温度影响PEG与IL之间的氢键变化所产生.此外,通过改变高分子含量、聚合物链长和离子液体中阳离子侧链长度,可以实现离子凝胶2种机制下热响应温度的大范围连续调控.同时离子凝胶的热响应相转变伴随着多种物化性质的变化,如光学透过率、机械强度(3.6～0.1 MPa)以及离子电导率.离子凝胶的上述特性使其在智能显示、可穿戴设备以及柔性传感器等领域发挥重要应用.     

基于室温离子液体和有序大孔金膜的酶传感器

将室温离子液体1-丁基-3-甲基咪唑四氟硼酸盐([BMIM]BF4)、N,N-二甲基甲酰胺(DMF)、及不同种类的膜材料与各种酶一起通过混合涂布、逐层修饰的方式固定于三维有序大孔金膜电极表面,构建一种新型的生物酶传感器。血红蛋白(Hb)、肌红蛋白(Mb)和辣根过氧化物酶(HRP)在该修饰电极上呈现出明显的还原峰,这归因于三种酶活性中心的直接电化学行为。分别构建四种不同膜材料的修饰电极,研究了硅凝胶、壳聚糖、Nafion膜和琼脂糖水凝胶四种材料对于L-乳酸脱氢酶(LDH)修饰电极催化响应的影响,结果表明选择壳聚糖作为膜材料是最优选择。将壳聚糖修饰的LDH金膜电极用做检测乳酸浓度的生物传感器,该传感器表现出良好的催化性能,线性响应范围为10~250nmol/L,检测限(S/N=3)为3.3nmol/L。     

基于室温离子液体的电导型气体传感器

本文利用室温离子液体对水或有机蒸气吸收后其离子导电性的改变,研制了以离子液体BmimPF6为敏感材料的电导型气体传感器.考查了BmimPF6用量对传感器响应的影响,测定了传感器对不同浓度的水蒸汽及乙醇、二氯甲烷等饱和有机蒸气的响应.实验结果显示,该传感器具有制作方便、结构简单、稳定性高及线性范围宽等优点,可被用于不同浓度的水或有机蒸气/氮气混合气氛中,水蒸汽或有机蒸气浓度的测定.此外,还针对该传感器对乙醇等不同饱和有机蒸气响应信号与这些有机溶剂的理化性质参数间的定量关系,采用化学计量学方法进行了建模分析.     

具有环境响应性的纤维素基水凝胶

随着对可再生资源开发利用的逐渐重视,基于纤维素环境响应型水凝胶结构设计及其响应性能的研究备受关注.环境响应纤维素基水凝胶不仅具有良好的生物相容性和生物可降解性,还表现出对环境因素特定的检出识别能力及明显响应性,拓展了水凝胶材料在生物医用、仿生智能材料等领域的应用.本综述首先从环境响应型纤维素水凝胶材料的结构设计出发,以交联方式分类简要介绍了纤维素基水凝胶的合成方法,具体包括物理交联、化学交联和其他交联方式等.接着,从水凝胶功能性入手,重点介绍了以一种或多种化学信号、物理信号为刺激源响应的纤维素基水凝胶材料;并以药物载体、形状记忆材料和伤口敷料等方面研究成果为例,阐述了环境响应型纤维素基水凝胶的相关应用,以及其在智能软体机器人和环保生物传感器等领域的巨大应用潜力.     

香豆素衍生物荧光传感器对Zn2+的识别及细胞成像

制备了基于香豆素衍生物的荧光传感器CANQ,其可选择性地识别Zn²⁺离子。通过NMR、MS、荧光光谱等技术研究了传感器的结构及荧光性能。传感器CANQ对Zn²⁺离子具有显著的荧光增强响应,且响应速度快、选择性高、生物相容性好,可用于MCF?7细胞中Zn²⁺离子的成像。     

刺激响应型树状分子凝胶的研究进展※

近年来, 刺激响应型超分子凝胶作为一类智能软物质材料, 在离子识别材料、自修复材料、生物材料和药物缓释等领域展现出了非常好的应用前景, 受到人们广泛关注. 树状分子是一类具有高度支化结构的大分子, 其形成的凝胶兼具有机小分子凝胶和聚合物凝胶的双重优点, 树状分子丰富的多层次支化几何结构有利于修饰不同功能基团, 从而确保各功能基团彼此独立作用而不相互干扰, 这种特性使其在构筑多功能化凝胶材料, 尤其是多重环境刺激响应型凝胶材料方面具有独特优势. 基于此, 本综述从树状分子凝胶因子设计、成凝胶机理、响应性能和响应机理等方面详细归纳了刺激响应型树状分子凝胶的研究进展. 按照刺激源不同, 主要从光响应型、氧化还原响应型、离子响应型、触变响应型和多重响应型五个方面对刺激响应树状分子凝胶进行了系统归纳总结. 最后, 基于目前刺激响应树状分子凝胶存在的一些问题对该领域未来发展进行了展望.     

杯芳烃化学传感器的研究进展

杯芳烃衍生化得到不同结构和功能基团的主体分子。通过主客体分子作用可包结、螯合客体分子,并可作为敏感材料应用在离子选择电极、离子敏感场效应管、离子光导膜、压电晶体等各种类型的化学传感器上,用于离子和中性分子的识别和检测。     

以铜离子为模板的褐藻酸凝胶对铜离子的选择性富集研究

以铜离子为模板，制备了褐藻酸凝胶（Cu-alginate)，通过吸附实验及过柱渗滤实验，试验了该吸附剂对铜离子的选择性吸附性能，并且采用该吸附剂富集了自来水中微量的Cu^2 ，结合原子吸收法测定了水样中Cu^2 的含量。结果表明：该吸附剂对Cu^2 有较高的选择性吸附性能，显著优于一些化学合成铜离子模板缩聚物及非铜模板褐藻酸凝胶（如Ca-alginate),非重金属离子（如K^ 、Na^ 、Ca^2 ）及某些重金属离子（如Ni^2 、Cd^2 ）等对Cu^2 的吸附均不产生明显干扰。用该吸附剂富集水中的微量铜离子，回收率可达97.7%。     

表面印迹法制备钴(Ⅱ)离子印迹硅胶及性能

采用表面印迹技术, 以Co(Ⅱ)离子作为印迹离子, 二乙烯三胺基丙基三甲氧基硅烷为功能分子, 硅胶为支撑物, 环氧氯丙烷为交联剂, 在硅胶表面制备Co(Ⅱ)离子印迹硅胶材料, 利用红外光谱仪、扫描电镜和热重分析仪等进行了表征, 采用平衡吸附法研究了印迹硅胶材料的吸附性能和选择识别能力. 结果表明, 印迹硅胶材料和非印迹硅胶材料的最大吸附量分别为35.2和6.5 mg/g; 印迹硅胶材料对Co(Ⅱ)离子的吸附行为符合Langmuir模型; 20 min即可达到吸附平衡; 当pH=3.9~7.8时, 印迹硅胶材料保持了较好的吸附容量; 印迹硅胶材料对Co(Ⅱ)离子具有较强的选择性识别能力; 重复使用时性能稳定.     

Bipolar pulse conductometric monitoring of ion-selective electrodes: Part 2. Studies with the fluoride-selective electrode

Bipolar pulse conductometric monitoring of the fluoride ion-selective electrode (i.s.e.) is evaluated. It is shown that fluoride ion, in addition to affecting the electrode potential, also can have two effects upon the total resistance of the electrode. Fluoride ion can enter a gel layer on the surface of the doped lanthanum fluoride crystal; solution concentrations as low as 10^-9 M fluoride can significantly decrease the gel resistance. Fluoride concentrations in the potentiometric working range of the i.s.e. can also increase the electrode resistance. The conductometric detection limit is 2–4 decades lower than the potentiometric detection limit. However, because of the resistance factors, the conductometric curve is not monotonic, and shows a maximum at a fluoride concentration in the vicinity of the potentiometric detection limit. The two resistive changes possible have different time dependences; the decrease of the gel layer resistance becomes predominant at long measurement times, while the increase of the crystal resistance predominates within the first minute of exposure to solution. Hydroxide is shown to affect the i.s.e. potential and lower the gel layer resistance. Response time to changes in fluoride concentration are less than 15 s and do not show the strong concentration dependence observed potentiometrically. The i.s.e. is shown to have a slightly lower resistance to fluoride entering the crystal than to fluoride leaving it. The small resistive dependence on direction of ion migration may indicate a directional dependence of activation energy for ion transport across the membrane solution interfaces.     

Amperometric tape ion sensors for cadmium(II) ion analysis

This paper describes a novel tape platform ion sensing methodology specific to the detection of cadmium(II) ions in aqueous solution based on assisted ion transfer reactions across a polarized water | organic gel micro-interface. The tape ion sensors were constructed to incorporate the micro-water | polyvinylchloride-2-nitrophenylethyl ether (PVC-NPOE) gel interfaces referred to as ionodes. The sensors have overall thicknesses less than 300 μm, allowing their packaging in a disposable tape format. The detection methodology is based on the selective assisted transfer of the cadmium ion in aqueous phase by ETH 1062 present in the PVC-NPOE gel layer and was first investigated using cyclic voltammetry. Quantitative analysis of cadmium(II) ions in aqueous solution using the tape sensors was then conducted under stop-flow conditions. Detection limits as low as 20 ppb (178 nM) for Cd(II) ions in very small volumes as low as a single 20 μl droplet without any sample preconcentration was achieved in an analysis time of approximately 20 s, which could be easily employed for the direct measurement of Cd(II) ion levels in various field applications. The tape ion sensor can also be used in a flow-cell geometry to preconcentrate Cd(II) ions from aqueous samples and further improve the detection limit.     

DEAE-silica gel and DEAE-controlled porous glass as ion exchangers for isolation of glycolipids.

DEAE-silica gel and DEAE-controlled porous glass have been used for the quantitative isolation of gangliosides and neutral glycosphingolipids from animal tissues and cells. A direct comparative study between DEAE-silica gel, DEAE-controlled porous glass and DEAE-Sephadex was made; the results indicated that DEAE-silica gel is preferable to the other two ion exchangers. DEAE-silica gel has also been found to be suitable for the fractionation of ganglioside mixtures.     

Electro‐conductive double‐network hydrogels

Novel electro‐conductive and mechanically‐tough double network polymer hydrogels (E‐DN gels) were synthesized by polymerization of 3, 4‐ethylenedioxythiophene in the presence of a double network hydrogel (DN gel) matrix. The E‐DN gels showed not only excellent mechanical performance, having a fracture stress of 1.4–2.1 MPa, but also electrical conductivity as high as 10^?3 S cm^?1, both under dry and water‐swollen states. The fracture stress and fracture energy of the E‐DN gel was increased by 1.7 and 3.4 times, respectively, as compared with the DN gel. From scanning electron microscope and AFM observations, it was found that electro‐conductive poly(3,4‐ethylenedioxythiophene) (PEDOT) was incorporated into DN gel matrix, apparently due to the formation of a poly‐ion complex with sulfonic acid group of the DN gel network. Thus, PEDOT incorporated into the DN gel matrix greatly improves not only electronic conductivity, but also mechanical properties, reinforcing the double network gel matrix. © 2012 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys, 2012     

Polyacrylamide gel plugs enabling 2-D microfluidic protein separations via isoelectric focusing and multiplexed sodium dodecyl sulfate gel electrophoresis

In situ photopolymerized polyacrylamide (PAAm) gel plugs are used as hydrodynamic flow control elements in a multidimensional microfluidic system combining IEF and parallel SDS gel electrophoresis for protein separations. The PAAm gel plugs offer a simple method to reduce undesirable bulk flow and limit reagent/sample crosstalk without placing unwanted constraints on the selection of separation media, and without hindering electrokinetic ion migration in the complex microchannel network. In addition to improving separation reproducibility, the discrete gel plugs integrated into critical regions of the chip enable the use of a simple pressure-driven sample injection method which avoids electrokinetic injection bias. The gel plugs also serve to greatly simplify operation of the spatially multiplexed system by eliminating the need for complex external fluidic interfaces. Using an FITC-labeled Escherichia coli cell lysate as a model system, the use of gel plugs is shown to significantly enhance separation reproducibility in a chip containing five parallel CGE channels, with an average variance in peak elution time of only 4.1%.     

凝胶型聚合物电解质的电导率与温度的关系

凝胶型聚合物电解质的电导率与温度的关系孙晓光，林云青，齐力，景遐斌，王佛松（中国科学院长春应用化学研究所长春１３００２２）关键词凝胶电解质，离子电导率，活化能无定形聚合物电解质电导与温度的依赖关系一般可用Ｖｏｇｅｌ－Ｔａｍｍａｎ－Ｆｕｌｃｈｅｒｃ（Ｖ...     

基于离子交换和表面引发接枝聚合制备阴离子表面印迹材料及其识别特性研究

建立了一种新的离子表面印迹(IIP)方法. 使用偶联剂γ-氨丙基三甲氧基硅烷(AMPS)对微米级硅胶微粒进行表面改性, 制得表面含有氨基的改性硅胶AMPS-SiO₂. 凭借离子交换作用, 阳离子单体甲基丙烯酰氧乙基三甲基氯化铵(DMC)结合在模板离子磷酸根周围; 改性硅胶AMPS-SiO₂表面的氨基与溶液中的过硫酸盐构成氧化还原引发体系, 使DMC及交联剂N,N'-亚甲基双丙烯酰胺(MBA)在硅胶微粒表面发生接枝交联聚合, 从而实现了磷酸根离子的表面印迹, 制得了阴离子表面印迹材料IIP-PDMC/SiO₂. 采用静态与动态两种方法, 考察研究了IIP-PDMC/SiO₂对PO₄^3-离子的识别特性与结合性能. 研究结果表明, 离子表面印迹材料IIP-PDMC/SiO₂对PO₄^3-离子具有特异的识别选择性与优良的结合亲和性, 相对于对比离子高锰酸根离子, IIP-PDMC/SiO₂对PO₄^3-离子的识别选择性系数为9.58.     

The gel swelling properties of alginate fibers and their applications in wound management

Calcium alginate fibers have a novel gel‐forming capability in that, upon the ion exchange between sodium ions in the contact solution and calcium ions in the fiber, the fiber slowly transforms into a fibrous gel. This paper reviews the principles of the gel‐forming process for alginate fibers and analyzed the gelling behavior of various types of alginate fibers. The absorption characteristics of alginate wound dressings were analyzed and it was found that alginate wound dressings absorb a large quantity of liquid into the fiber structure, in addition to those held between the fibers in the textile structure. This gives rise to the unique gel blocking properties of alginate wound dressings. In addition, alginate wound dressings also have novel hemostatic and antimicrobial properties as well as the ability to promote wound healing. They are now widely used in the management of highly exuding wounds such as leg ulcers, pressure sores, and surgical wounds. Copyright © 2007 John Wiley & Sons, Ltd.