全钒氧化还原液流电池用Nafion/有机硅复合膜

采用原位化学反应的方法制备了Nafion/有机硅复合膜, 并对所制备复合膜的离子交换容量(IEC)、电导率和水渗透率等进行了测试. 结果表明, 所制备复合膜具有优异的阻水性能. 以Nafion/有机硅复合膜作为离子交换膜的钒电池的库仑效率(CE)和能量效率(EE)都得到了大幅度提高. 此外, 以所制备复合膜为离子交换膜的VRB单电池充放电80次后性能几乎无衰减, 说明所制备Nafion/有机硅复合膜即使在强酸和强氧化性的钒电池体系中也可以稳定使用, 表明Nafion/有机硅复合膜是一种性能优异的适用于全钒氧化还原液流电池的新型质子交换膜.     

基于电沉积技术制备ZnS量子点/海藻酸盐复合膜及其检测应用

基于电沉积技术发展了一种原位制备ZnS量子点及其海藻酸盐复合膜的方法,此方法具备可控性好、步骤简单、条件温和、绿色环保等优点.实验结果表明,电沉积后可以在电极上形成ZnS量子点/海藻酸锌复合膜,该复合膜表面光滑无气泡,在302 nm紫外光下呈现清晰的蓝色荧光.透射电镜测试和光谱分析结果表明复合膜中存在ZnS量子点,其平均粒径为3.0 nm.利用电沉积技术的可控性和空间选择性以及ZnS量子点的荧光性能,可以制备出具备不同形状和荧光图案的复合膜.此外,利用电沉积技术制备的ZnS量子点/海藻酸锌复合膜同时具备荧光检测和电化学检测的能力,在双模式检测以及构建双模式检测器方面具备应用前景.     

磷钼钒杂多酸/聚酰胺-胺复合膜修饰电极的制备及电催化性能

通过静电层层自组装方法在预修饰聚二烯丙基二甲基氯化铵的电极基片上制备了Dawson型磷钼钒杂多酸/聚酰胺-胺多层复合膜. 用X射线光电子能谱、紫外-可见光谱、循环伏安法和原子力显微镜分析表征了多层复合膜的形成过程; 用循环伏安法表征了该复合膜修饰电极的电化学性能, 研究结果表明, 该复合膜修饰的电极稳定性好, 对亚硝酸盐、溴酸盐的还原以及抗坏血酸的氧化具有良好的催化活性.     

液晶种类对聚氨酯-液晶复合膜血液相容性的影响

以聚碳酸酯聚氨酯(PCU)为基质材料,通过溶液浇铸法制备了PCU-COC(胆甾醇油烯基碳酸酯)和PCU-PPC(丙酰氧丙基纤维素)两种液晶复合膜.对复合膜的表面形貌和复合膜中液晶在PBS溶液中的流失率以及液晶种类和液晶含量对复合膜的溶血率、动态凝血性能和表面蛋白吸附的影响进行了详细研究.结果表明:两种液晶复合膜的溶血率均低于5%,符合生物材料溶血试验要求;两种复合膜的抗凝血性能均优于相应的基材PCU;与相应的PCU-PPC相比,PCU-COC复合膜的抗凝血性能较好,但PCU-COC复合膜中的COC在PBS溶液中较易流失.     

铂粒子修饰单壁碳纳米管/聚苯胺复合膜对甲醛的电催化氧化

在溶有单壁碳纳米管(SWNTs)的苯胺溶液中, 通过电化学共聚合法成功制备了单壁碳纳米管(SWNT)/聚苯胺(PANI)复合膜. 用电沉积法将铂沉积到SWNT/PANI复合膜上. 样品的成分和形貌分别用XRD和SEM表征. 四探针和电化学交流阻抗的研究表明被PANI包裹的SWNTs整齐地排列在复合膜中, 从而提高了复合膜的电导率, 促进了电荷转移. 循环伏安(CV)说明Pt修饰的SWNT/PANI复合膜对于甲醛氧化具有良好的电催化活性及稳定性. 研究结果表明SWNT/PANI复合膜是一种非常好的催化剂载体, 有着广泛的应用前景.     

全钒液流电池磺化石墨烯/Nafion复合膜的研究

本文通过磺化石墨烯对Nafion膜进行改性,研究了磺化石墨烯/Nafion复合膜（GRS-Nafion复合膜）的吸水率、电阻率和钒离子迁移数. 结果表明,经磺化石墨烯改性之后,GRS-Nafion复合膜的面电阻和钒离子渗透率显著降低. 全钒液流电池的测试结果表明,GRS-Nafion复合膜有着更加优异的电化学性能,展示出GRS-Nafion复合膜在液流电池中的应用潜力.     

辣根过氧化物酶在壳聚糖和无掺杂金刚石纳米粒子共沉积膜上的固定及其直接电化学

无掺杂的金刚石纳米粒子(UND)可以和壳聚糖共沉积到玻碳电极表面,形成壳聚糖-UND复合膜.此复合膜可以通过吸附的方法,固定辣根过氧化物酶(HRP),并且能够实现HRP的直接电化学,保持HRP对过氧化氢的良好催化能力.为了进一步研究此复合膜及HRP在此复合膜上的电化学活性,运用扫描电子显微镜(SEM)、全反射红外(ATR)、电化学交流阻抗、循环伏安等技术来跟踪各步修饰过程.结果表明,此复合膜有良好的生物相容性,能够很好的保持HRP的生物活性.     

钯复合膜的研究进展

钯复合膜具有很高的透氢选择性以及良好的化学和热稳定性，一直是膜技术领域的研究热点。本文综述了近年来在钯复合膜透氢机理、钯膜制备方法以及钯膜反应器等方面的研究进展；着重讨论了近3年来钯复合膜制备方法的新进展，包括超临界条件下制备钯复合膜的新技术等内容；总结了钯复合膜在脱氢、部分氧化以及耦合反应过程中应用的一些代表性工作，并对钯复合膜制备与应用的发展趋势进行了展望。     

一种新型锂离子电池用聚合物电解质复合膜的制备和性能表征

阐述了一种新型锂离子电池用PVDF-HFP(聚偏氟乙烯-六氟丙烯聚合物树脂)基聚合物电解质复合膜的制备过程. 对复合膜中使用的无机TiO2纳米颗粒进行固体超强酸化处理, 并进行颗粒表面酸强度H0测试、XRD晶体结构分析以及复合膜的电解液吸附率测试和电化学阻抗谱测试. 采用PE无纺布支撑体作为增强材料, 以浸涂方法制备复合膜,并进一步组装为锂离子电池, 性能测试表明该电池具有良好的电化学性能.     

磺化聚芳醚酮砜/聚吡咯复合型直接甲醇燃料电池用质子交换膜的制备与性能研究

以高磺化度的磺化聚芳醚酮砜(SPAEKS)和吡咯(Py)为原料,通过原位聚合的方法制备了含有不同吡咯含量的SPAEKS/PPy复合膜.红外谱图表明SPAEKS聚合物中的磺酸基团与聚吡咯(PPy)中的亚氨基基团之间形成了强烈的相互作用.扫描电镜照片显示PPy能够均匀地分散在SPAEKS聚合物基体中,没有发生团聚现象.通过对复合膜的性能测试发现PPy的引入提高了复合膜的热稳定性,降低了复合膜的吸水率,改善了其水溶胀性.同时膜中水的脱附系数下降,提高了膜的保水能力.SPAEKS/PPy-3复合膜的甲醇渗透系数达到了1.18×10-7cm2/s,明显低于纯SPAEKS膜的8.52×10-7cm2/s,而其质子传导率虽有所降低,但在25℃和80℃仍然分别达到了0.039S/cm和0.061S/cm,能够满足质子交换膜对质子传导率的要求.研究结果表明,聚吡咯与SPAEKS中磺酸基的摩尔比为0.99的复合膜有望在直接甲醇燃料电池中得到应用.     

Sandwich-like QDs/MOFs films for selective sensing and multicolor emitting

A novel type sandwich-like composite films composed of ZIF-8 and CdTe QDs were successfully constructed through facile layer-by-layer assembly strategy and their potential applications were also explored. Based on the limitation effects of the aperture of ZIF-8, CdTe QDs/ZIF-8 fluorescent composite films exhibit obvious selective optical response toward hydrogen peroxide and folic acid. Furthermore, tunable colorful light emission composite films in the red-green region are obtained through incorporating two different sized QDs and ZIF-8 films into one composite films.     

Film Composites of polyimide with polyaniline and poly(aniline-<Emphasis Type="Italic">co</Emphasis>-anthranilic acid)

New two-component composite polymer films are prepared and studied in terms of thermal stability and stress-strain properties. The matrix component of the composite is polyimide based on 3,3′,4,4′-(1,3-diphenoxybenzene)tetracarboxylic dianhydride and 4,4′-bis(4″-aminophenoxy)diphenyl sulfone. Another component is polyaniline or the copolymer poly(aniline-co-2-aminobenzoic acid). Composite films are cast from mixed solutions of individual polymers in N-methyl-2-pyrrolidone. Interpolymer interactions in polyimide composites with polyaniline or the copolymer of aniline and 2-aminobenzoic acid are investigated via viscometry and IR spectroscopy. The thermal treatment of composite films with poly(aniline-co-2-aminobenzoic acid) results in decarboxylation of the copolymer and formation of polyimide-polyaniline composite films. The morphology, microphase structure, and porosity of the composite films are different from those of the films cast from solutions of polyimide-polyaniline mixtures.     

ELECTROCHEMICAL STUDIES ON CONDUCTING COMPOSITE FILMS FROM POLYURETHANE AND POLYPYRROLE

A study on the electrooxidative polymerization of pyrrole onto polyurethane-coated platinum electrodes and the electrochemical properties of the composite polyurethane/polypyrrole films (PU/PPy) as-prepared is presented. It is found that polypyrrole grows layer by layer from the polyurethane/platinum interface through the polyurethane matrix, and ca. 20 wt.% of polypyrrole will fill up the matrix. Cyclic voltemmograms show that the composite films are porous, and the reduction-reoxidation (redox) rate of the composite films is limited by the diffusion of counteranions through the films. Larger anion size leads to slower diffusion process. The composite films can also act as modified electrodes.     

Electric-Field-Induced Alignment of Functionalized Carbon Nanotubes Inside Thermally Conductive Liquid Crystalline Polyimide Composite Films

The positive liquid crystals, 4′-heptyl-4-biphenylcarbonitrile (7CB), are used to functionalize carbon nanotubes (LC-CNT), which can be aligned in the liquid crystalline polyimide (LC-PI) matrix under an alternating electric field to fabricate the thermally conductive LC-CNT/LC-PI composite films. The efficient establishment of thermal conduction pathways in thermally conductive LC-CNT/LC-PI composite films with a low amount of LC-CNT is achieved through the oriented alignment of LC-CNT within the LC-PI matrix. When the mass fraction of LC-CNT is 15 wt %, the in-plane thermal conductivity coefficient (λ_∥) and the through-plane thermal conductivity coefficient (λ_⊥) of the LC-CNT/LC-PI composite films reach 4.02 W/(m ⋅ K) and 0.55 W/(m⋅K), which are 90.5 % and 71.9 % higher than those of the intrinsically thermally conductive LC-PI films respectively, also 28.8 % and 5.8 % higher than those of the CNT/LC-PI composite films respectively. Meanwhile, the thermally conductive LC-CNT/LC-PI composite films also possess excellent mechanical and heat resistance properties. The Young's modulus and the heat resistance index are 2.3 GPa and 297.7 °C, respectively, which are higher than the intrinsically thermally conductive LC-PI films and the thermally conductive CNT/LC-PI composite films under the same amount of CNT.     

壳聚糖-CdS复合膜制备及其对吡啶的传感特性

利用壳聚糖（CS）易于成膜的特点，模拟生物矿化，在有机物调制下通过异相成核生长制备了CS/CdS纳米颗粒复合膜.研究了成膜条件对膜的水热稳定性和发光性能的影响，以及CS/CdS纳米颗粒复合膜对水体中吡啶的响应特性.扫描电镜分析表明CS/CdS纳米颗粒复合膜均匀性好， CdS以物理掺杂方式均匀分布于CS薄膜中， CdS颗粒尺寸在70 nm左右.但薄膜荧光光谱位置和形状表明实际发光的CdS簇集体直径小于20 nm.由此推测电镜观察到的CdS颗粒可能是由许多CdS小颗粒聚集而成，小颗粒之间因有机物的存在而相互隔离. CS/CdS纳米颗粒复合膜的荧光发射对水体中吡啶的存在十分敏感，微量吡啶的存在会引起薄膜荧光发射急剧增强.除铜和碘离子外，水体系中其他常见离子对薄膜荧光发射没有显著影响，预期CS/CdS纳米颗粒复合薄膜有可能发展成为一种重要的水体系吡啶测定专用传感薄膜材料.     

气相生长碳纤维/形状记忆聚氨酯复合薄膜的力学及形状记忆性能研究

采用溶液混合法制备了不同含量的气相生长碳纤维(VGCF)增强形状记忆聚氨酯(SMPU)的复合材料薄膜,测试分析了纯SMPU及VGCF/SMPU复合材料薄膜的力学性能及形状记忆性能.结果表明,制得的复合材料薄膜在VGCF含量达到9 wt%时,VGCF在SMPU基体中仍具有较好的分散性;SMPU与VGCF复合后,得到的复合材料薄膜的拉伸强度和刚度有较大程度的提高,含量达到9 wt%时复合材料薄膜的拉伸强度比纯SMPU提高66%,弹性模量提高300%,储能模量也有较大程度提高;SMPU与VGCF复合后,形状记忆性能有一定的下降,但经过适当预处理后,其形状记忆性能可以基本接近纯SMPU.     

硅表面CS/BSA复合微图形的制备及表征

采用微加工方法在硅表面成功地制备出壳聚糖/牛血清白蛋白(CS/BSA)复合微图形. 借助光镜和荧光显微镜对复合微图形进行形貌分析. 利用大肠杆菌和白色葡萄球菌定量考察了CS/BSA复合微图形的抗菌性能, 结果表明, 硅表面沟槽交叉状CS/BSA复合微图形对两种细菌都具有较好的抗菌效果. 通过MC3T3-E成骨细胞培养考察了复合微图形的细胞相容性, 结果表明, CS/BSA复合微图形对于细胞的生长方向具有较强的诱导性, 可促进细胞在材料表面的黏附、铺展及增殖分化. 结果表明, 采用微转移模塑法制备的CS/BSA复合微图形具有较好的抗菌性和细胞相容性.     

Development of an optical ammonia sensor based on polyaniline/epoxy resin (SU-8) composite

Polyaniline (PANI)/glycidyl ether of bisphenol A (SU-8) composite film is elaborated in order to detect ammonia gas. These composite films are characterized by ultraviolet-visible (UV-vis) spectroscopy, Fourier transformed infrared (FTIR) spectroscopy and scanning electron microscopy (SEM). The sensitivity to ammonia is measured by optical absorption changes. The ammonia sensing properties of PANI/SU-8 composite films are studied, and then are compared to pure PANI films elaborated by chemical way. Experimental results show that the PANI/SU-8 optical sensor has simultaneously a rapid response to ammonia gas and regenerates easily, that is advantageous compared to pure PANI films.     

Fabrication and electrochemical investigation of layer-by-layer deposited titanium phosphate/Prussian blue composite films

Composite films of titanium phosphate (TiPS)/Prussian blue (PB) were fabricated by the alternative deposition of TiPS layer and PB nanocrystals. The layer of TiPS was fabricated by adsorption of hydrated titanium from aqueous Ti(SO4)2 solution and subsequent reaction with phosphate groups. The layer of PB nanocrystals was fabricated by sequential adsorption of FeCl3 solution and K4[Fe(CN)6] solution. Regular deposition of TiPS/PB composite films were verified by UV-vis absorption spectroscopy and quartz crystal microbalance measurements. The successful fabrication of the TiPS/PB composite films was further confirmed by X-ray photoelectron spectroscopy and Fourier transform infrared (FT-IR) spectroscopy. Instead of producing films of TiPS layers alternating with PB nanocrystal layers, the TiPS/PB composite films have a structure in which the interstices of the PB nanocrystal films are filled with TiPS component. TiPS/PB composite films show enhanced electrochemical properties and improved stability in comparison with pure PB films prepared by the multiple sequential adsorption process. TiPS/PB composite films have the capability to catalyze the electrochemical reduction of H2O2 and can be used as a biosensor for detecting H2O2.     

(Ni-Mo)/TiO2纳米薄膜光催化降解刚果红的性能与机理

用恒电流复合电沉积方法制备(Ni-Mo)/TiO2薄膜,以扫描电子显微镜(SEM)、X射线衍射(XRD)、拉曼(Raman)光谱和紫外-可见漫反射光谱(UV-VisDRS)对薄膜的表面形貌、晶相结构和光谱特性进行了表征,以刚果红为模拟污染物对薄膜的光催化性能进行了测定,并讨论了刚果红溶液的pH值对薄膜光催化活性的影响.采用循环伏安技术和向溶液中加入活性物种捕获剂的方法对薄膜光催化降解机理进行了探索.结果表明:(Ni-Mo)/TiO2薄膜是由粒径为50-100nmTiO2纳米粒子相和纳米晶Ni-Mo固溶体相构成的复合薄膜.薄膜具有较高的光催化活性,卤钨灯照射80min后,复合薄膜光催化刚果红的降解率是多孔TiO2(DegussaP25)/ITO(氧化铟锡)纳米薄膜的2.43倍.(Ni-Mo)/TiO2薄膜光催化活性的提高主要归因于薄膜层中有效形成的(Ni-Mo)/TiO2异质结和良好的电子通道,以及Ni-Mo纳米晶合金对溶解氧和激发电子还原反应的催化作用.分别给出了在紫外和可见光下薄膜光催化降解刚果红的反应机理.