超支化聚负离子/超支化聚正离子自组装膜的制备及反应

自1991年以来,静电吸附自组装已发展成为制备具有特定纳米微结构聚电介质多层超薄膜的有效技术。近年来,由于树枝状聚合物和超支化聚合物独特的物理化学性质,文献中已将它们与线性聚电解质一起用于静电吸附自组装过程,但完全基于超支化聚合物分子间的自组装过程还鲜见报道,超支化聚合物所具有的大量末端和内部（如叔胺基）官能团,不仅可以用于调节自组装行为及组装膜的表面形貌,     

浸泡法和旋涂法对偶氮聚电解质静电吸附自组装膜结构及性能的影响

利用浸泡和旋涂静电吸附自组装技术制备了含有偶氮生色团的聚电解质薄膜,比较了两种方法在自组装膜生长机理、膜结构以及膜光学性能方面的差异.利用紫外光谱和椭偏仪检测自组装膜的生长情况,利用原子力显微镜对膜表面结构进行了表征,并用偏振激光在膜表面进行了写光栅实验.结果表明,采用浸泡法和旋涂法都可以制备出表面光滑均匀的含偶氮生色团的聚电解质自组装膜.但是浸泡法自组装膜的生长速度要比旋涂法快.在自组装膜厚度较小的情况下,旋涂法得到的自组装膜可以写出明显的光栅而浸泡法不可以.随着自组装膜厚度的增加,两种方法得到的自组装膜都可以写出明显的光栅.这些结果说明浸泡法自组装膜内部聚电解质分子的层间穿插比较严重,而旋涂法自组装膜内分子穿插要弱得多.     

电流滴定法对自组装膜表面酸碱性的研究

近年来 ,有序分子自组装体系在基础研究和应用领域均得到了较大的发展 .选择末端可以解离的自组装分子而制成的自组装膜 ,可以方便地通过调节底液的 p H值来控制膜体系的荷电状况 [1] ,这在利用静电作用吸附蛋白质 [2 ] 、多肽 [3] 、 DNA[4 ] 、聚电解质 [5] 、金属离子及其它物种 [6] 等方面具有重要作用 .精确测定表面解离常数 (即表面 p Ka)和控制自组装膜表面的荷电状况 ,无疑在理论研究和实践中均占有重要地位 .目前 ,一些方法如接触角滴定 [7] 、微分界面电容 [8] 、电流滴定法 [9,10 ] 以及 AFM的力曲线滴定 [11,12 ]被用于表面…     

旋涂-逐层自组装制备光响应性聚丙烯酸酯类偶氮聚电解质多层膜

偶氮聚电解质的静电逐层自组装是实现偶氮聚合物功能性的重要手段,是制备诸如光存储材料、光开关材料和非线性光学材料等的新途径.因此,光响应性偶氮聚电解质的静电逐层自组装已引起了人们的广泛关注.静电逐层自组装通常在水溶液中进行,即通过基材在在水溶液中的交替浸渍和逐层     

银/聚电解质复合纳滤膜的制备及表征

利用层层自组装技术(LbL),采用原位还原方法在聚醚砜(PES)基膜上制备了银/聚电解质复合纳滤膜.SEM分析表明:膜表面结构致密,Ag粒子在复合膜中分布均匀,粒径100～200 nm,UV-vis图谱证明膜中粒子为Ag粒子,所得银/聚电解质纳滤膜呈现出优异的抗菌性能.[PSS/PDADMAC]3[PAS/PAH-Ag]3PSS膜对负二价离子显示出较高的截留性能,达到93%.     

制备导电聚合物-半导体纳米颗粒自组装膜

中国科学院基础局“九五”重大项目资助（ KJ950-A1-505-02）　　有机-无机纳米复合材料在高级功能器件制造中有巨大的应用前景 .这些器件中需要控制其中各个组分在纳米、甚至分子尺度上的取向 [1]（ orientation）和组织 [2]（ organization） ,因为它们的功能强烈地依赖于其局部化学微环境和相关结构的尺寸 .近年来 ,逐层自组装（ Layer-By-Layer Assembly）技术作为一种制备多层超薄复合膜的新方法已引起广泛关注 .采用具有相反电荷的聚电解质与表面修饰的纳米颗粒 ,通过逐层自组装过程 ,是制备分子有序排列的纳米多层复合结构膜材料…     

端基结构对超支化聚合物静电吸附自组装行为的影响

研究了3种具有相同骨架结构、不同端基的超支化聚合物与线型聚阳离子(PDAC)的静电吸附自组装.结果表明,超支化聚合物的组装过程与线型弱酸聚合物相似,都受溶液pH值与无机盐浓度的影响,但影响程度随端基结构不同而变化.此外,对以超支化聚合物为最外层的不同自组装膜的表面形貌及接触角进行了表征,其表面形貌及亲水性随端基结构的不同而不同.     

超支化聚合物胶束自组装

超支化聚合物因其独特的拓扑结构和物理化学性质,引起了科学界和工业界的广泛关注,成为高分子学科一个新的研究热点之一。近年来,超支化聚合物在分子自组装研究领域展示出了独特的潜力,实现了多维多尺度自组装,制备了各种超分子结构。而胶束是超支化聚合物最容易自组装得到的超分子结构。本文我们将系统总结超支化聚合物包括聚醚、聚酯、聚磷酸酯、聚多糖等胶束自组装行为、组装机理及其在生物医药、纳米载体、金属纳米粒子制备等方面的最新应用。     

界面聚合法合成聚邻苯二胺及其表征

邻苯二胺电聚合膜己广泛用于生物活性物质固定、电催化、腐蚀防护和电色材料研究,近期也用于制备分子印迹型化学/生物传感器[1,2]。人们已经研究了聚邻苯二胺的结构特性、性能及应用前景[3,4,5]。目前聚合物基纳米复合材料的制备方法主要有:分子自组装法、微乳液聚合法、电化学     

表面印迹交替层状组装薄膜

在简要概述非常规交替层状组装这一进展后,重点总结了如何利用非常规交替层状组装以实现表面印迹膜的制备.模板分子与聚电解质在溶液中组装形成超分子复合物,然后以此超分子复合物为构筑基元,与感光性高分子,如重氮树脂,通过常规交替层状组装形成聚合物多层膜.利用聚合物多层膜之间的光化学反应形成稳定的多层膜,然后去除模板分子得到分子...     

新型侧链偶氮聚电解质的合成及性能研究

通过自由基聚合合成了一种侧链型偶氮聚电解质 ,聚丙烯酸 2 [4 (4′ 羧基苯基偶氮 )苯基 ]乙酯(PCAPEA) .详细研究了PCAPEA水溶液的pH值对其紫外 可见光谱和光响应性的影响 .研究发现 ,PCAPEA水溶液的紫外吸收光谱对pH值具有高度敏感性 ,并且在不同pH值条件下其光响应性有很大差别 .这种差别反映了PCAPEA分子中的偶氮苯基团在水溶液中聚集状态的变化 .本论文还研究了PCAPEA与聚二烯丙基二甲基氯化铵 (PDAC)在不同溶剂中的静电逐层自组装 .研究发现 ,PCAPEA的水和有机溶剂的混合溶液也可用来进行自组装 ,这一新方法可用于水溶性差的聚电解质的自组装     

Construction of albumin multilayer coating onto plasma treated poly(vinyl chloride) via electrostatic self‐assembly

Multilayer films consisting of polyethylenimine (PEI) and albumin were successffully prepared on plasma treated poly(vinyl chloride) (PVC) via electrostatic self‐assembly of the PEI and albumin. The layer‐by‐layer assembly of the PEI/albumin on plasma treated PVC was monitored by contact angle and ¹²⁵I radiolabeled method. The stability of the mutilayer coating was determined by ¹²⁵I radiolabeled method. The results revealed that less than 10% albumin was eluted by a phosphate buffered saline (PBS) solution in 45 days. The static platelet adhesion indicated that the PEI/albumin deposited PVC could resist the platelet adhesion effectively. Such an easy processing and shape‐independent method may have good potential for surface modification of cardiovascular device. Copyright © 2004 John Wiley & Sons, Ltd.     

含C60的聚电解质自组装膜微摩擦性能的研究

通过自由基引发溶液聚合反应,合成星状C₆₀-苯乙烯-丙烯酸聚合物,其钠盐作为高聚物负离子,与高聚物正离子的重氮树脂在云母上自组装成膜,利用紫外光照射反应,使膜层间连接的离子键转化成共价键.用原子力显微镜(AFM)和摩擦力显微镜(FFM)研究了不同链长和不同层数自组装膜的表面形貌及微摩擦性能.     

CuSO4 Micro-crystal Lattice Produced by Microcontact Printing

ＩｎｔｒｏｄｕｃｔｉｏｎＴｈｅ ｐｒｅｐａｒａｔｉｏｎｏｆｍｉｃｒｏ ｐａｒｔｉｃｌｅｌａｔｔｉｃｅｗｉｔｈｓｔｒｉｃｔｓｉｚｅｓａｎｄｓｐａｃｅｃｏｎｔｒｏｌｉｓａｎｉｍｐｏｒｔａｎｔｐｒｏｂｌｅｍｔｏｂｅｓｏｌｖｅｄｕｒｇｅｎｔｌｙｉｎｍａｎｙｈｉｇｈ ｔｅｃｈｆｉｅｌｄｓ .Ｔｒａｄｉ ｔｉｏｎａｌｍｉｃｒｏ ｆａｂｒｉｃａｔｉｏｎｍｅｔｈｏｄｉｓｐｈｏｔｏｌｉｔｈｏｇｒａｐｈｙ ,ｂｕｔｉｔｉｓｕｎａｂｌｅｔｏｐｒｏｄｕｃｅａｎｙｐａｔｔｅｒｎｓｏｎａｃｕｒｖｅｄｓｕｒｆａｃｅａｎｄｄｉｆｆｉｃ…     

Surface‐Confined Electropolymerization of Methylene Blue on Gold Electrodes

We report on the electrochemical behaviour and electropolymerization of self‐assembled monolayers (SAMs) of methylene blue (MB) on gold electrodes. The SAMs of MB on gold electrodes were prepared by immersing the substrates into a solution of 1.0 mM MB in absolute ethanol for different times at room temperature. Cyclic voltammetry experiments exhibited that reductive desorption of MB monolayer takes place at three different potentials on polycrystalline gold electrodes, while reductive desorption of MB monolayer consists of only one peak on single crystal Au(111) substrates. Calculated charge densities for different immersion times indicated that optimal immersion time for self‐assembly of MB is 96 h. Electropolymerization of SAMs of MB on gold electrode was achieved by applying 0.95 V for 1 s in 0.1 M borate buffer solution (pH: 9.0). It was observed that poly(MB) monolayers are highly stable in acidic media. ATR‐FTIR and UV‐vis spectra exhibited differences between monomer and polymer monolayers, which are attributed to surface‐confined electropolymerization. STM image of poly(MB) monolayer on Au(111) substrate revealed a surface that is covered by well‐ordered, collateral nanowires with an average size of 3 nm.     

紫细菌反应中心色素蛋白复合膜电子转移研究

采用自组装单层膜方法在金电极表面形成单分子层的2,3－双巯基丁二酸（DMSA）,聚二甲基二丙烯氯化铵（PDDA）及紫细菌（Rhodobacter Sphaeroides)反应中心色素蛋白复合体的有序复合膜,使用方波估安法研究了该蛋白复合膜的电化学行为,成功地检测到该蛋白内多电对的可逆或准可逆电子转移过程,探讨了紫细菌反应中心蛋白内容各电子受体的氧化还原电位及外加电位驱动对各受体电位的影响,同时,通过对方波信号的非线形拟合,获得了该蛋白复合膜内主要电对的电子转移速率常数及电子迁移数等相关参数。     

Electropolymerization of layer‐by‐layer precursor polymer films

The layer‐by‐layer (LbL) self‐assembly has been used to fabricate polymer thin films on any solid substrates. The multilayer polymer thin films are constructed by alternating adsorption of anionic and cationic polymers. Polyelectrolyte multilayer ultrathin films containing anionic poly[2‐(thiophen‐3‐yl)ethyl methacrylate‐co‐methacrylic acid]; P(TEM‐co‐MA) and cationic poly[4‐(9H‐carbazol‐9‐yl)‐N‐butyl‐4‐vinyl pyridium bromide]; P4VPCBZ, were fabricated. The growth of multilayer ultrathin films was followed by UV–Vis absorption spectrophotometer and surface plasmon resonance spectroscopy (SPR). The deposition of P(TEM‐co‐MA)/P4VPCBZ as multilayer self‐assembled ultrathin films regularly grow which showed linear growth of absorbance and thickness with increasing the number of layer pair. Cross‐linking of the layers was verified by cyclic voltammetry (CV), UV–Vis spectrophotometry and electrochemical surface plasmon resonance (EC‐SPR) spectroscopy with good electro‐copolymerizability. This was verified by spectroelectrochemistry. The SPR angular‐reflectivity measurement resulted in shifts to a higher reflectivity according to the change in the dielectric constant of the electropolymerized film. Copyright © 2011 John Wiley & Sons, Ltd.     

水溶性含C_(60)聚电解质的制备及其与重氮树脂自组装膜AFMFFM的初步研究

通过BPO引发的溶液聚合 ,合成了水溶性的星状C6 0 苯乙烯 苯乙烯磺酸钠的三元共聚物 [Star shapedC6 0 poly(St SS) ],运用自组装技术 ,在水溶液中 ,含C6 0 的三元共聚物与重氮树脂 (Diazoresin)通过正负离子间的吸附力在云母基片上交替一层一层有序地组装成固体膜 .自组装膜经紫外光幅照反应 ,通过重氮基的分解 ,层间连接的离子键转变成共价键 ,从而增加薄膜的稳定性和堆砌密度 .用原子力显微镜 摩擦力显微镜(AFM FFM)考察了C6 0 在膜中的承载作用及比较不同链结构、不同链长、不同层数自组装膜的表面形貌和微摩擦性能 .初步的研究结果显示了聚合物薄膜的微摩擦性能与聚合物的化学结构、链长和膜的层数有密切关系     

Layer—by—layer Multilaryer Films Self—assembled from a Rare—earth—containing Poly—oxometalate,Na9[Eu（W5O18）2] and Poly （allylamine hydrochloride） and Their Photoluminescent Properties

Ultrathin multilayer films of a rare-earth-containing polyoxometalate Na9[Eu(W5O18)2](EW) and poly (allymamine hydrochloride)(PAH) have been prepared by layer-by-layer self-assembly from dilute aqueous solution.The fabrication process of the EW/PAH multilaryer films was followed by UV-vis spectroscopy and ellipsometry,which show that the deposition process is linear and highly reproducible from layer to layer.An average EW/PAH bilayer thickness of ca.2.1nm was determined by ellipsometry.In addition,the scanning electron microscopy(SEM) image of the EW/PAH film indicates that the film surface is relatively uniform and smooth.The photoluminescent properties of these films were also investigated by fluorescence spectroscopy.     

Layer-by-layer-assembled microfiltration membranes for biomolecule immobilization and enzymatic catalysis

Multilayer assemblies of polyelectrolytes, for protein immobilization, have been created within the membrane pore domain. This approach was taken for two reasons: (1) the high internal membrane area can potentially increase the amount of immobilized protein, and (2) the use of convective flow allows uniform assembly of layers and eliminates diffusional limitations after immobilization. To build a stable assembly, the first polyelectrolyte layer was covalently attached to the membrane surface and inside the pore walls. Either poly(L-glutamic acid) (PLGA) or poly(L-lysine) (PLL) was used in this step. Subsequent deposition occurs by multiple electrostatic interactions between the adsorbing polyelectrolyte [poly(allylamine) hydrochloride (PAH) or poly(styrenesulfonate) (PSS)] and the oppositely charged layer. Three-layer membranes were created: PLL-PSS-PAH or PLGA-PAH-PSS, for an overall positive or negative charge, respectively. The overall charge on both the protein and membrane plays a substantial role in immobilization. When the protein and the membrane are oppositely charged, the amount immobilized and the stability within the polyelectrolyte assembly are significantly higher than for the case when both have similar charges. After protein incorporation in the multilayer assembly, the active site accessibility was comparable to that obtained in the homogeneous phase. This was tested by affinity interaction (avidin-biotin) and by carrying out two reactions (catalyzed by glucose oxidase and alkaline phosphatase). Besides simplicity and versatility, the ease of enzyme regeneration constitutes an additional benefit of this approach.