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1.
层层组装是一种基于物质交替沉积而制备复合膜的方法,可以实现膜的结构和组成的精确调控.聚合物复合物是基于各种分子间弱相互作用力而形成的超分子聚集体,其种类包括聚阳离子-聚阴离子复合物、聚电解质-有机小分子复合物、中性聚合物-聚合物复合物以及聚合物-无机杂化复合物等.在本文中,以作者的研究结果为基础,阐明聚合物复合物的层层组装是一种方便、快捷的功能复合膜的构筑方法,具有如下优点:(1)聚合物复合物大的尺度可以实现聚合物复合物层层组装膜的快速构筑;(2)聚合物复合物的结构在组装溶液中和成膜后都容易调控,方便聚合物复合物层层组装膜结构的精细调控.(3)聚合物复合物层层组装膜可以构筑非复合的聚合物层层组装所不能获得的膜结构及功能.  相似文献   

2.
聚电解质层层自组装纳滤膜   总被引:2,自引:0,他引:2  
层层自组装技术能够方便地对膜的微观结构和组成进行调控,已在制备复合型纳滤膜方面取得了迅速的发展。本文综述了近年来用于聚电解质层层自组装纳滤膜的制备方法、种类以及影响因素。介绍了静态层层交替沉积、压力驱动自组装和电场强化自组装等3种制备方法;归纳了均聚型、共聚型和有机/无机杂化型等3类用于层层自组装纳滤膜的聚电解质的特点;讨论了聚电解质的荷电性、电荷密度和电离程度等因素对其自组装膜分离性能的影响。总结了聚电解质自组装纳滤膜在水处理和有机溶剂中物质的分离等方面的应用。同时,对提高聚电解质自组装纳滤膜的组装效率、分离性能和发展方向提出了设想和建议。  相似文献   

3.
自1991年Decher等~([1])正式报道层层组装以来,它己成为一种通用、方便的功能化复合膜制备方法.将基底材料依次浸入到各组分溶液中,聚电解质、杂多酸、纳米材料、蛋白质以及DNA等物质可以通过分子间的各种相互作用精确而有序地组合到一起,形成具有独特功能和性质的修饰膜,在表面处理、新型光学器件、生物装置以及电化学传感器的研制中发挥着重要的作用.目前,层层组装在电化学传感器中的应用几乎都是在商品化电极上进行的,受电极尺寸及形状的限制,所构建的电化学传感器实际应用前景有限.  相似文献   

4.
用自组装法制备聚合物纳米复合膜   总被引:7,自引:0,他引:7  
文章比较了自组装法(self-assembly,SA)与Langmuir-Blodgett技术(LB)及其它方法在制备聚合物纳米复合膜时的优劣。SA法由于操作简单、膜的结构稳定性较高,因此较LB技术等具有更大的实用价值。利用SA法,可以制备各种有机聚电解质与其带相反电荷的有机聚电解质、粘土化合物及无机纳米颗粒等组成的聚合纳米复合膜。  相似文献   

5.
银/聚电解质复合纳滤膜的制备及表征   总被引:2,自引:1,他引:1  
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%.  相似文献   

6.
基于贻贝仿生化学的分离功能材料   总被引:1,自引:0,他引:1  
贻贝仿生的表面化学是近年来材料学、化学、生物医学等领域的交叉研究热点。多巴胺可以作为贻贝足丝蛋白(Mfp)超强黏附特性的模型分子,通过复杂的氧化-自聚和组装,形成多种功能的聚多巴胺(PDA)纳米涂层和纳米粒子,在分离膜、吸附材料、生物医用材料、生物黏结剂等领域有着广阔的应用前景。本研究小组近年来持续开展了基于贻贝仿生化学的分离功能材料制备与结构调控的研究工作,率先将多巴胺表面沉积方法应用于多孔分离膜表面的构建与功能化,提出了多巴胺的自聚-沉积过程模型,进而验证了PDA沉积层的纳滤分离特性,建立了一条简单方便的膜表面功能化与纳滤膜制备新途径。本文主要对基于贻贝仿生化学的分离功能材料,特别是分离膜的研究进展进行综述,并对将来的发展趋势进行展望。  相似文献   

7.
在非水介质中制备聚电解质静电吸附自组装膜   总被引:1,自引:0,他引:1  
静电吸附自组装是近年来得到广泛研究和应用的一种制备超薄膜的方法,具有操作简单,膜厚可控等很多优点,已经被广泛应用于制备各种功能薄膜材料[1~4].通常情况下,聚电解质的静电吸附自组装都是在水中进行的.一方面,聚电解质在水中可以很容易的实现电离;另一方面,以水做介质可以避免有机溶剂的污染,尤其对模仿各种生物环境非常有利.所以自1991年Decher首先报道该方法以来,绝大多数的聚电解质静电吸附自组装是以水为介质.但是,以水做介质也常常会遇到一些困难,尤其对于疏水性(包括非水溶性)聚电解质来说.在当前研究的许多热点领域中如导电、发…  相似文献   

8.
人造胶体马达是能够将不同形式的能量转化为流体中机械运动的微纳米机器.自2 0 1 2年以来,将自下而上的可控分子组装与自上而下的方法有效结合已成为可控构筑胶体马达的重要策略之一.基于可控分子组装(如层层组装)的胶体马达具有易于实现规模化制备、能够对外界刺激作出响应、便于实现多功能化等优点.本文综述了通过将各种功能性构筑基元集成到组装结构中进而实现胶体马达的可控构筑、运动控制以及生物医学应用等方面的研究进展.主要介绍了基于不同层层组装结构的气泡驱动马达的可控构筑,基于聚电解质多层膜微胶囊及纳米管的近红外光驱动马达的构筑,生物界面化马达的制备,实现对胶体马达运动速度、方向及状态有效控制的主要方法,以及马达在药物靶向递送、光热治疗和生物毒素清除等生物医学领域中的应用.  相似文献   

9.
以聚(乙烯-alt-马来酸)的苯乙胺衍生物与聚烯丙基胺盐酸盐为原料,通过层层自组装技术(LBL)在色谱硅胶表面交替沉积得到聚电解质多层膜高效液相色谱(HPLC)固定相;利用紫外光谱、红外光谱和元素分析研究了HPLC固定相的结构和组成.结果表明,聚电解质多层膜HPLC固定相被成功构筑在硅胶颗粒表面;制备的多层膜固定相可方便地用于6种芳香烃类及4种烷基苯类物质的分离分析.本文的研究结果说明LBL技术在制备HPLC固定相方面具有一定的应用价值.  相似文献   

10.
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.  相似文献   

11.
介绍了近几年来我们研究组在层状组装膜的构筑以及功能化研究方面取得的一些最新进展.包括结合表面溶胶-凝胶技术与静电层状组装技术,实现了二阶非线性基团在层状组装多层膜中的非对称排列,制备了具有二阶非线性效应的膜材料;采用室温压印技术,发展了一种简便、经济和具有普适性的层状组装聚合物膜图案化方法;以轻度交联的聚合物微凝胶为构筑基元,制备了具有高负载量的聚合物层状组装膜;发展了一种基于离子剥离技术的层状组装自支持膜制备方法;基于层状组装技术,制备了具有超疏水和抗反射功能的涂层.  相似文献   

12.
Y Li  X Wang  J Sun 《Chemical Society reviews》2012,41(18):5998-6009
In the past two decades, layer-by-layer (LbL) assembly has been proven to be a convenient and versatile method to fabricate functional films. However, using traditional dipping LbL assembly to fabricate micrometer-thick films is time consuming. Compared with ultrathin films, micrometer-thick films prepared by LbL assembly possess enhanced mechanical stability, and allow deposition of a significantly increased amount of materials and the integration of multiple functions. These merits of thick films produced by LbL assembly can result in new functions and allow the functions of ultrathin films fabricated by LbL assembly to be optimized. In this tutorial review, the methods for rapid fabrication of thick polymeric films involving LbL assembly are reviewed. The functions of such films that are relevant to their micrometer thickness are discussed.  相似文献   

13.
The layer-by-layer (LbL) assembly of salt-containing nonstoichiometric polyelectrolyte complexes (PECs) with oppositely charged uncomplexed polyelectrolyte for the fabrication of dewetting-induced porous polymeric films has been systematically investigated. Salt-containing poly(allylamine hydrochloride) (PAH) and poly(acrylic acid) (PAA) complexes (noted as PAH-PAA) with a molar excess of PAH were LbL assembled with polyanion poly(sodium 4-styrenesulfonate) (PSS) to produce PSS/PAH-PAA films. The structure of the PAH-PAA complexes is dependent on the concentration of NaCl added to their aqueous dispersions, which can be used to tailor the structure of the LbL-assembled PSS/PAH-PAA films. Porous PSS/PAH-PAA films are fabricated when salt-containing PAH-PAA complexes with a large amount of added NaCl are used for LbL assembly with PSS. In-situ and ex-situ atomic force microscopy measurements disclose that the dewetting process composed of pore nucleation and pore growth steps leads to the formation of pores in the LbL-assembled PSS/PAH-PAA films. The present study provides a facile way to fabricate porous polymeric films by dewetting LbL-assembled polymeric films comprising salt-containing PECs.  相似文献   

14.
15.
Influences of drying and nondrying steps on structures of layer-by-layer (LbL) assembled sodium silicate/TiO(2) nanoparticles films (donated as silicate/TiO(2) films) have been systematically investigated. The nondrying LbL assembly produces highly porous silicate/TiO(2) films with large thickness. In contrast, the silicate/TiO(2) films fabricated with a drying step after each layer deposition are flat and thin without porous structures. In situ atomic force microscopy (AFM) measurements confirm that the sodium silicate and TiO(2) nanoparticles are deposited in their aggregated forms. A N(2) drying step can disintegrate the aggregated silicate and TiO(2) nanoparticles to produce thin silicate/TiO(2) films with compact structures. Without the drying steps, the aggregated silicate and TiO(2) nanoparticles are well retained, and their LbL assembly produces highly porous silicate/TiO(2) films of large thickness. The highly porous silicate/TiO(2) films are demonstrated to be useful as reusable film adsorbents for dye removal from wastewater because they can adsorb a large amount of cationic organic dyes and decompose them under UV irradiation. The present study is meaningful for exploring drying/nondrying steps for tailoring structure and functions of LbL assembled films.  相似文献   

16.
Layer-by-Layer (LbL) coatings are promising tools for the biofunctionalization of biomaterials, as they allow stress-free immobilization of proteins. Here, we explore the possibility to immobilize phosvitin, a highly phosphorylated protein viewed as a model of bone phosphoproteins and, as such, a potential promotive agent of surface-directed biomineralization, into biomimetic LbL architectures. Two immobilization protocols are attempted, first, using phosvitin as the polyanionic component of phosvitin/poly-(L-lysine) films and, second, adsorbing it onto preformed chondroitin sulfate/poly-(L-lysine) films. Surprisingly, it is neither possible to embed phosvitin as the constitutive polyanion of the LbL architectures nor to adsorb it atop preformed films. Instead, phosvitin triggers instant massive film disassembly. This unexpected, incidentally detected behavior constitutes the first example of destructive interactions between LbL films and a third polyelectrolyte, a fortiori a protein, which might open a route toward new stimuli-responsive films for biosensing or drug delivery applications. Interestingly, additional preliminary results still indicate a promotive effect of phosvitin-containing remnant films on calcium phosphate deposition.  相似文献   

17.
This work reports the fabrication and characterization of multilayered gold nanoparticle (AuNP) thin films on aminosilane functionalized substrates. The films are fabricated via layer-by-layer (LbL) assembly using as-synthesized, un-modified AuNPs and poly(allylamine hydrochloride) as the building blocks. While most literature reports that AuNP based LbL assemblies are constructed with a single interlayer binding force, this work shows that both coordination and electrostatic interaction are involved in the process of assembly based on X-ray photoelectron spectroscopic results. The stepwise film growth behavior is demonstrated by atomic force spectroscopy and UV-vis spectroscopy. It is found that the particles agglomerate with each other and form large clusters when the number of assembled layers increases.  相似文献   

18.
In this letter, we have developed a facile method to enhance the stability of polyelectrolyte multilayers. We fabricate conventional polyelectrolyte multilayers of PAH/PAA through electrostatic layer-by-layer (LbL) assembly and then postinfiltrate photosensitive cross-linking agent 4,4'-diazostilbene-2,2'-disulfonic acid disodium salt into the LbL films. After cross-linking by UV irradiation, the stability of the photo-cross-linked multilayer is highly improved as evidenced by the lack of dissolution under ultrasonication in saturated SDS aqueous solutions for 10 min. Moreover, by taking advantage of the different stability of the LbL film before and after UV irradiation, a patterned surface can be achieved.  相似文献   

19.
The role of molecular structure, charge, and hydrophobicity in polyelectrolyte layer-by-layer assembly (LbL) of thin films has been studied using the model polypeptides poly-L-glutamatic acid (PLGA) and poly-L-lysine (PLL), quartz crystal microbalance (QCM), and circular dichroism spectroscopy (CD). The adsorption behavior of PLGA and PLL has been compared with the structure of these molecules in aqueous solution under the same conditions. The data show that the deposition of polypeptide per adsorption step scales with average secondary structure content, whether alpha helix or beta sheet. This is contrary to the expectation based on the view that hydrogen bonds are crucial to polypeptide film assembly, because secondary structure formation in a polypeptide reduces its intermolecular hydrogen-bonding potential. The data also show that polypeptide adsorption scales with ionic strength and chain length. Taken together, the results increase knowledge of polypeptide-based LbL thin film fabrication and will help to provide a firmer foundation for the use of natural or designed polypeptides in LbL.  相似文献   

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