利用呼吸图案法制备聚(苯乙烯-b-丙烯腈)有序多孔薄膜

以自制的聚(苯乙烯-b-丙烯腈)(PS-b-PAN)嵌段共聚物为成膜材料, 采用呼吸图案法制备了有序多孔薄膜, 采用扫描电子显微镜(SEM)对薄膜形貌进行了分析, 研究了聚合物浓度、溶剂种类及共聚物结构对薄膜结构的影响. 结果表明, 薄膜表层为多孔结构, 且孔为圆形、以六方阵列形式排列; 薄膜表层下面是蜂窝状结构.以三氯甲烷(CHCl₃)为溶剂时, 在较高浓度下制备的薄膜表层孔间距较大, 蜂窝结构尺寸较小, 且形成了多层结构. 与CHCl₃为溶剂时相比, 挥发速度较快的二硫化碳(CS₂)作溶剂时制备的多孔薄膜有序性较好, 薄膜表层孔径和孔间距均较大, 蜂窝结构尺寸较小. 以没有PAN链段的聚苯乙烯大分子引发剂(PS-Cl)为成膜材料时, 制备的薄膜表层没有形成多孔结构, 而是形成了窝状结构. 同时, 通过对薄膜表层晕的研究证明了多孔薄膜表层缺陷是由水滴处于液膜下较深的位置造成的.     

聚乳酸蜂窝状多孔膜的形成与控制

以单一组分聚L-乳酸(PLLA)为成膜材料,利用水辅助法制备了聚乳酸(PLLA)蜂窝状多孔膜.利用扫描电镜(SEM)和原子力显微镜(AFM)观察多孔膜形貌.研究溶剂、溶液浓度、环境温度和湿度等因素对所成多孔膜结构的影响.实验结果表明,高湿度环境和具有一定浓度的聚合物溶液是制备蜂窝状多孔膜的必要条件.溶剂的挥发性是形成规整蜂窝状孔结构的关键因素.环境相对湿度由43%增加到91%,PLLA多孔膜的孔径由(1.75±0.24)μm增加到(11.50±1.43)μm,且孔呈现六边形的蜂窝状结构.扫描电镜断面和AFM表明:膜表面形成了深度约为1.8μm的单层孔结构.通过控制溶液浓度、环境温度和湿度等因素来控制膜的表面形貌及其所成蜂窝状孔的大小.最佳的成膜条件为溶剂CH2Cl2,湿度75%RH,温度34℃,浓度3 wt%.讨论了蜂窝状多孔膜的形成机理.     

利用反相乳液-水滴模板法制备功能性生物基图案化结构

通过将传统水滴模板法中的单相成膜液改造为反相乳液体系,引进乳液水滴来加载蛋白质组分,实现了对亲水组分直接实施水滴模板法从而获得其阵列组装结构.利用壳聚糖纳米粒子作为皮克林反相乳液的乳化剂制备了稳定的反相乳液体系,并进一步得到聚乳酸/壳聚糖/牛血清白蛋白的杂化蜂窝状多孔薄膜,考察了壳聚糖粒子对于乳液稳定和所制备多孔阵列结构形貌的影响,研究了加入蛋白质浓度和乳液中的水相/油相比例对于所成膜孔形貌的影响,利用荧光标记蛋白质跟踪确认基于蜂窝状多孔阵列结构上的图案化蛋白质阵列组装形貌.     

水滴模板法构筑蜂窝状有序多孔膜*

水滴模板法是利用凝结并自组织有序排列的水滴为模板构筑有序蜂窝状多孔薄膜的方法。这种方法具有方便、快速、廉价、作为模板的水滴可以自然蒸发而除去,且孔洞的尺寸可以通过改变相关的实验参数方便的进行调控的优点,因而近年来受到了人们的广泛关注。本文介绍了利用水滴模板法构筑有序多孔薄膜的实验方法,探讨了形成机理和相关实验条件对多孔薄膜结构的影响,并结合当前的研究热点针对多孔薄膜的进一步应用,着重综述了水滴模板法在不同性质的成膜材料体系的应用、多孔薄膜中亚有序结构的引入以及提高多孔薄膜稳定性的方法。最后,本文展望了利用水滴模板法构筑有序多孔薄膜这一研究领域的发展前景。     

掺杂态聚苯胺蜂窝状有序多孔薄膜的制备及形成机制的探讨

近年来,由于微米、亚微米及纳米级有序多孔结构薄膜可以用于催化、生物培养基材、分离或吸附介质、光子晶体等诸多方面从而引起了科学家们极大的研究兴趣^[1～6].微制作是使材料表面具有新性能的重要手段,激光刻蚀及其相关技术已经被应用于不同表面的微图案化和微器件的制作^[7],另外,还可通过自组装技术进行多孔薄膜的制备^[8,9].Francois等^[10]于1994年首次提出了水辅助方法(Water-A ssisted Fab-rication),即在高湿度的环境下,以冷凝水滴为模板,在固体基片上制备了孔径分布均一,排列紧密的蜂窝状有序多孔薄膜.继而人们对此方法做了进一步的研究,不仅突破了最初的聚苯乙烯及其共聚物体系^[10～13],而且使用双亲共聚物^[14]、聚离子复合物^[15]和TiO₂前驱体的混合物^[16]等成功地获得了蜂窝状有序多孔薄膜,同时系统地研究了成膜体系及成膜条件对形成蜂窝状有序多孔薄膜的影响,并对形成机制进行了探讨.聚苯胺是典型的导电高分子,有关聚苯胺有序多孔结构薄膜的研究已有报道^[17～19].本文采用水辅助方法,在高湿度环境下,使用4-十二烷基苯磺酸掺杂的聚苯胺(PANI-DBSA)为成膜材料,制备了双层蜂窝状有序多孔薄膜,并通过原子力显微镜(A FM)对薄膜的形貌和电学性质进行了表征.同时在已有成膜机制的基础上,提出了该双层蜂窝状有序多孔薄膜的形成机制.     

水滴模板法构筑蜂窝状有序多孔薄膜

水滴模板法是利用凝结并自组织有序排列的水滴为模板构筑有序蜂窝状多孔薄膜的方法。这种方法具有方便、快速、廉价、作为模板的水滴可以自然蒸发而除去,且孔洞的尺寸可以通过改变相关的实验参数方便地进行调控的优点,因而近年来受到了人们的广泛关注。本文介绍了利用水滴模板法构筑有序多孔薄膜的实验方法,探讨了形成机理和相关实验条件对多孔薄膜结构的影响,并结合当前的研究热点针对多孔薄膜的进一步应用,着重综述了水滴模板法在不同性质的成膜材料体系的应用、多孔薄膜中亚有序结构的引入以及提高多孔薄膜稳定性的方法。最后,本文展望了利用水滴模板法构筑有序多孔薄膜这一研究领域的发展前景。     

有序/无序非对称型多层多孔结构的一步法制备研究

反相乳液-水滴模板(Ie-BF)法被用以制备具有非对称多层多孔结构的聚合物薄膜.具体来说,通过在高湿环境条件下浇筑以聚合物/三氯甲烷溶液为油相所制备的反相乳液,最终在所制备薄膜的表面层形成单层有序的蜂窝状BF多孔阵列结构,同时在本体层形成无序排布的多层多孔结构.通过调节所浇筑乳液的组成以及Ie-BF法实施的条件,可以同...     

蝌蚪型POSS接枝含氟丙烯酸酯类杂化聚合物多孔膜的制备研究

以本实验室合成的3种结构的蝌蚪型POSS杂化聚甲基丙烯酸三氟乙酯(POSS-PTFEMA)、POSS杂化聚甲基丙烯酸三氟乙酯嵌段共聚聚甲基丙烯酸甲酯(POSS-PMMA-PTFEMA)及POSS杂化聚甲基丙烯酸甲酯嵌段共聚聚甲基丙烯酸三氟乙酯为成膜材质,利用呼吸图案法制备规整结构的蜂窝状聚合物多孔薄膜.利用扫描电镜(SEM)对薄膜表观形貌进行观察,分析了孔形貌的影响因素,并研究了多孔膜的疏水疏油性和耐温性.研究表明,以氯仿为成膜溶剂,3种不同结构的杂化聚合物均可以在较大的浓度范围下(5~30 mg/mL)制备规整的杂化聚合物多孔膜,膜的孔径随聚合物浓度的增大而增大;聚合物POSS-PTFEMA由于化学结构中含有最多的TFEMA结构单元,其规整性最好;相对疏水的硅片也有利于这类疏水的聚合物多孔膜的制备.所形成的多孔膜具有良好的耐温性能和疏水拒油性,其对水接触角介于98°~116°之间,对正十二烷的接触角则介于43°~66°之间.     

甲醇气氛静态呼吸图法制备蜂窝状有序多孔膜

以原子转移自由基聚合方法合成的聚二甲基硅氧烷-b-聚苯乙烯(PDMS-b-PS)为铸膜材料,在静态呼吸图的基础上,首次在甲醇氛围下利用PDMS-b-PS的二硫化碳溶液铸膜得到了高度规整的蜂窝状有序多孔结构.研究了聚合物溶液浓度对孔径的影响,并与水蒸汽氛围制备的孔结构进行了比较.结果表明,甲醇气氛下制备的多孔膜的孔径比水蒸汽氛围下的大,且孔的断面形貌呈“U”形;孔径随着溶液浓度的增大而减小.该研究有利于呼吸图法制备有序结构材料技术的进一步发展,有助于人们更加准确与全面地认识呼吸图机理.     

蜂窝状有序膜功能化研究进展*

水滴模板法是近年来引人瞩目的一种制备有序微结构材料的方法,所制备的蜂窝状有序膜在微容器和微反应器、图案化模板、细胞培养支架、光学材料、超疏水表面、分离膜等领域具有十分重要的应用前景。本文对蜂窝状有序膜功能化研究的最新进展进行了系统总结,详细介绍和分析了原位多层次自组装、表面接枝、生物活性分子固定、交联、模板法成膜以及表面填充等蜂窝状有序膜的功能化方法。     

Breath Figure Arrays: Unconventional Fabrications,Functionalizations, and Applications

A breath figure (BF) is the water droplet array that forms when moisture comes in contact with a cold substrate. This water droplet array has been widely utilized in the past two decades as a versatile soft template for the fabrication of polymeric porous films. Accordingly, the ordered pores on the polymer films formed with such a method are named a breath figure array (BFA).The BF templating technique is undergoing rapid development. Several unconventional BF processes have been established to prepare porous films with unique morphologies or primary materials, and various newly developed functionalization techniques have significantly improved the performance of polymeric films with BFA, leading to novel applications, including templates, biosensors, and separation membranes. These recent achievements will be described in this Minireview.     

Influence of vacuum on the formation of porous polymer films via water droplets templating

We report on the formation of ordered arrays of micron-sized holes on the surface of polymer films cast from volatile solvents in the presence of humidity in vacuum. A lower pressure in a vacuum chamber can accelerate the evaporation of solvent in the same way as the accelerating action of the air flowing across the solvent surface and results in the formation of porous films via the “breath figure” templating method. This vacuum technique has a good reproductiveness for the fabrication of the well-ordered porous films in a large area. It is very controllable to prepare the porous films in a vacuum chamber via controlling the vacuum level. The pore sizes can be easily tuned from 5.6 to 17.1 μm by changing the vacuum level. The mechanism for the formation of the porous films in vacuum was also discussed. The polymer films with ordered porous structure and tunable pore sizes have potential applications in many areas such as microarrays and as scaffolds for tissue engineering. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

智能蜂窝状有序多孔薄膜：体系构建、响应性能及应用探索

蜂窝状有序多孔膜是一种典型的具有微、纳米尺寸的图案化高分子薄膜材料,在超疏水表面、光电材料、组织工程、生物医学、传感器等领域都具有良好的应用前景。表面形貌或性质具有可逆刺激响应特性的智能型多孔膜不仅拥有常规多孔膜的性能,而且还拥有独特的"开-关"功能,因此受到广泛关注。本文回顾了智能有序多孔膜近年的研究进展,重点对其体系构建、响应方式、机理、性能和相关应用进行了归纳与分析,评述了不同刺激响应多孔膜的特点及优劣势,探讨了智能多孔膜的优化设计及提高响应性能等问题,指出了目前面临的挑战,并展望了未来的发展方向。     

基于静态呼吸图技术的图案化方法

对呼吸图技术制备二维有序多孔结构的研究进展进行了综合评述, 并重点介绍了本课题组发展的静态呼吸图技术. 利用静态呼吸图法, 可制备高度有序的聚合物、聚合物/无机物微孔膜. 这些有序的结构可以直接应用于光掩膜. 进一步, 多孔聚合物膜可以被紫外光交联和改性. 表面改性的多孔聚合物膜可以用于细胞支架. 而交联的聚合物/无机物前驱体微孔膜可以用来制备无机纳米材料阵列. 结果表明, 静态呼吸图技术是一种简单、高效的对聚合物、聚合物/无机物薄膜进行图案化的通用方法,并展示了图案化薄膜广阔的功能化前景.     

界面上蜂窝状多孔薄膜的构建、性质和应用

综述了以Breath Figure(呼吸图案)法制备聚合物及纳米颗粒蜂窝状多孔结构的研究现状.当潮湿的气流吹到聚合物或纳米颗粒的有机溶液表面时,溶剂蒸发导致水微滴在液体表面冷凝重排成六角阵列结构.溶剂和水微滴蒸发完毕后,聚合物或纳米颗粒在基底上形成具有六角阵列的蜂窝状多孔结构.该技术是自组装领域的一大进展,在生物技术、组织工程、微图像技术、高端分离技术、光催化及医药等领域有望获得重要应用.本文系统阐述了规整蜂窝状孔结构材料的构建方法、构建材料、形成机理以及影响因素(包括湿度、浓度、气流方向和速度、溶剂、基底曲率等),评述了蜂窝状多孔薄膜的性质和应用,并对其在化学和材料科学领域的应用前景作了展望.     

Self-organized polymer nanocomposite inverse opal films with combined optical properties

Inverse opal films with unique optical properties have potential as photonic crystal materials and have stimulated wide interest in recent years. Herein, iridescent hybrid polystyrene/nanoparticle macroporous films have been prepared by using the breath‐figure method. The honeycomb‐patterned thin films were prepared by casting gold nanoparticle‐doped polystyrene solutions in chloroform at high relative humidity. Highly ordered hexagonal arrays of monodisperse pores with an average diameter of 880 nm are obtained. To account for the observed features, a microscopic phase separation of gold nanoparticles is proposed to occur in the breath‐figure formation. That is, individual gold nanoparticles adsorb at the solution/water interface and effectively stabilize condensed water droplets on the solution surface in a hexagonal array. Alternatively, at high nanoparticle concentrations the combination of breath‐figure formation and nanoparticle phase separation leads to hierarchical structures with spherical aggregates under a honeycomb monolayer. The films show large features in both the visible and NIR regions that are attributed to a combination of nanoparticle and ordered‐array absorptions. Organic ligand‐stabilized CdSe/CdS quantum dots or Fe₃O₄ nanoparticles may be loaded into the honeycomb structure to further modify the films. These results demonstrate new methods for the fabrication and functionalization of inverse opal films with potential applications in photonic and microelectronic materials.     

聚合物孔材料的制备*

聚合物孔材料的制备和应用研究已经成为聚合物科学和材料科学热点,制备聚合物孔材料的方法发展很快。本文综述了聚合物孔材料的制备方法,包括胶体晶模版法、水模版法、超临界二氧化碳发泡法、自组装法等。其中本课题组首次提出的无模版自组装法操作简单、无需模版、环境友好,具有广阔的发展前景。     

Nanostructure formation in polymer thin films influenced by humidity

The influence of relative humidity (RH) during the film preparation on the surface morphology and on the material distribution of the resulting technical polymer blend films consisting of poly (methyl methacrylate) (PMMA) and poly (vinyl butyral) (PVB) is investigated by atomic force microscopy. Both pure polymers and polymer blends with different compositions of PVB/PMMA dissolved in tetrahydrofuran (THF) were used. Polymer films prepared under dry conditions (RH < 20%) are compared with those that have the same polymer composition but were prepared under increased humidity conditions (RH > 80%). The films consisting of the pure polymers showed a nonporous surface morphology for low‐humidity preparation conditions, whereas high‐humidity preparation conditions lead to porous PVB and PMMA films, respectively. These pores are explained as the result of a breath figure formation. In the case of the polymer blend films containing both polymers, porous or phase‐separated surface structures were observed even at low‐humidity conditions. A superposition of the effects of phase separation and breath figure formation is observed in the case of polymer blend films prepared under high‐humidity conditions. Atomic force microscopy (AFM) images taken before and after the treatment with ethanol as a selective solvent for PVB indicate that PMMA is deposited on top of a PVB layer in the case of the low‐humidity preparation process whereas for high‐humidity conditions the silicon substrate is covered with a PMMA film. Copyright © 2006 John Wiley & Sons, Ltd.     

Amphiphilic dendronized homopolymers

A series of second generation of amphiphilic dendronized homopolymers are efficiently synthesized, and their thermoresponsiveness in aqueous solutions and secondary structures in methanol solutions are described. These polymers are constructed in each repeat unit with various generations of hydrophobic 4-aminoproline and hydrophilic oligoethylene glycol (OEG)-based dendrons, and their over-all hydrophilicity is tuned by varying these dendron generations. Polymers with or without the first generation of proline dendron show good water solubility at room temperature, but exhibit typical thermoresponsive behaviors at elevated temperatures as characterized by turbidity measurements using UV-vis spectroscopy, while the polymer with the secondary generation of proline dendron is not soluble in water. All polymers show ordered secondary structures as evidenced by the optical rotation and circular dichroism experiments. Finally, assembly of these amphiphilic homopolymers into porous films via breath figure (BF) technique is described, and polymer structures are found to show significant influence on the morphology of porous film.