Ferroelectric Films

The preparation and properties of ferroelectric films are reviewed. Specific attention is directed to ferroelectric films prepared by wet chemical methods. Emphasis is placed on the microstructure and properties of SBT films for memory applications, and their dependence on chemistry and processing, as well as on the effects of chemistry and processing on the properties of piezoelectric and pyroelectric films. Emphasis is placed on recent results obtained in our laboratories, including modeling of the ferroelectric behavior of films and experimental results in each of these areas. Also considered is the use of ferroelectric films in memory, piezoelectric and pyroelectric devices of various types, with specific note made of the recently-announced use of pyroelectric sensors in automobiles.     

由聚电解质自组装多层膜制备微孔薄膜

带有相反电荷的聚电解质通过静电作用交替沉积可以得到自组装多层膜,由于这种技术可操作性强,用途广泛,近十几年来已有了大量的研究．聚电解质多层膜在一定条件下可以形成纳米孔和微米孔．Fu等研究了聚丙烯酸和聚乙烯基吡啶组成的氢键自组装多层膜在碱溶液中溶去其中的聚丙烯酸后,剩下的聚乙烯基吡啶重构形成微孔薄膜．Mendelsohn等发现将聚丙烯酸和聚烯丙基胺自组装而成的多层膜浸入pH=2．4左右的溶液中可制备微孔薄膜．但这些方法并不能使强聚电解质多层膜形成多孔结构。     

由有机LB膜制备无机超薄膜

无机超薄膜的优异性能引起人们的广泛兴趣，本文介绍几种由有机ＬＢ膜制备无机超薄膜的方法。     

单向拉伸聚酰亚胺薄膜

分别以聚酰胺酸法和部分酰亚胺化的“凝胶法”研究了均苯二酐/二苯醚二胺(PMDA/ODA)和联苯二酐/对苯二胺(BPDA/PPD)体系聚酰亚胺薄膜在制膜过程中对单向拉伸比的影响,研究了薄膜在热膨胀系数和力学性能方面的差别。结果表明,“凝胶法”薄膜可以有较高的拉伸比,可以使薄膜有较低的热膨胀系数(对于PMDA/ODA,由35.1×10-6/℃降低到12.5×10-6/℃),可以明显提高拉伸方向的强度和模量,PMDA/ODA可以分别达到236MPa和1.7GPa;BPDA/PPD可以分别达到613MPa和9.3GPa,但伸长率有所降低。     

高分子LB膜

概述了高分子Langmuir-Blogett膜,并依其成膜方式分别介绍了可聚合LB膜、聚合物的LB膜及其它几种LB膜。     

Silica-Titania Mesostructured Films

Mesostructured silica-titania mixed oxide films in which the titania is well accessible on the silicate pore wall have been synthesized by a ligand-assisted templating (LAT) approach in combination with sol-gel processing. Control over the different hydrolysis and condensation rates of silicon and titanium alkoxides was achieved by complexation of the titanium species to the poly(ethylene oxide) part of an amphiphilic surfactant molecule (Brij56®). This modified precursor was used as structure-directing agent in the formation of thin mesostructured films. The structure and composition of the resulting material was characterized by X-ray diffraction, UV-vis spectroscopy and transmission electron microscopy.     

超洁净石墨烯薄膜

正石墨烯具有优异的电学、光学、热学和力学等性质,在学术界和工业界都受到极大的关注和重视。众所周知,制备决定材料的未来。化学气相沉积方法(Chemical Vapor Deposition,CVD)是目前制备大面积、高质量石墨烯薄膜的最佳选择~(1,2)。近年来,针对石墨烯薄膜缺陷浓度、畴区尺寸、堆垛方式、层数、掺杂浓度等的精确控制均取得了一系列进展~(3–5)。然而,CVD制备石墨烯过程中的污染问     

Photovoltaic Behaviour of Titanyl Phthalocyanine Thin Films and Titania Bilayer Films

Summary: Titanyl phthalocyanine (TiOPc) thin films were prepared using evaporation and surface polymerization by ion-assisted deposition (SPIAD) in a vacuum deposition system. These films were characterized by means of ultraviolet and X-ray photoelectron spectroscopy as well as UV/Vis absorption spectroscopy. Valence band and elemental content indicated that phthalocyanine electronic and chemical structures were largely preserved during SPIAD. Further, bilayer thin films of titania (TiO₂) and SPIAD TiOPc were prepared. TiO₂ film was deposited by reactive magnetron sputtering of TiO₂ target. Study of the structured samples was focused on the optical and electrical properties of the composite films. The films were characterized by non-contact photovoltage measurements and UV-Vis spectroscopy. These results suggest there is a possibility to use these bilayer thin films in photovoltaic solar cells, however further experiments to improve conductivity of the films will be required.     

石墨烯透明导电薄膜

石墨烯是一种新型二维晶体材料,它独特的单原子层结构显示出许多优异的物理化学性质。以石墨烯为原料制备的透明导电薄膜继承了石墨烯的优点,与氧化铟锡(ITO)薄膜相比,具有更好的力学强度、透光性以及化学稳定性,已逐渐成为全世界范围内的研究热点。本文首先介绍了石墨烯的光电性能,然后分别从石墨烯透明导电薄膜的前驱体和制备方法两个不同的角度,归纳总结了最近几年石墨烯透明导电薄膜的研究进展,就目前所面临的问题进行了讨论,并展望了石墨烯透明导电薄膜的未来发展。     

超疏水涂膜的研究进展

超疏水涂膜以其独特的性能，在国防、工农业生产和日常生活中有着广泛的应用前景。但目前的制备技术制约了其在建筑外墙涂料等大型设施方面的应用。探索如何采用简单有效的方法构造和调控涂膜的双微观结构，从而获得性能持久优异的超疏水性涂膜，并有效应用于生产和生活的各个方面是这一领域研究的最终目标。本文就超疏水材料表面理论的发展和近几年来超疏水膜制备技术取得的新成果进行了概括，并指出制备超疏水涂膜存在的问题和发展方向。利用表面能极低的含氟材料，将溶胶－凝胶、相分离技术和自组装梯度功能等技术有机结合，获得适宜的表面粗糙度和微观构造，是实现超疏水涂膜工业化生产的可行途径。     

Sintering of Sol-Gel Films

The sintering of films differs from that of bulk gels in several ways. The initial state of a film is generally denser and less crosslinked than a bulk gel made from the same sol, and these factors enhance the densification rate of the film. The substrate constrains the shrinkage of the film, leading to high stresses that retard densification and can influence phase changes. The substrate is a site for heterogeneous nucleation, and crystallization makes densification more difficult, so the competition between sintering and crystallization is particularly important for films. Fast heating favors densification over crystallization, so rapid thermal annealing usually produces denser films. The high surface to volume ratio of a thin film makes it susceptible to degradation by reaction with the substrate and the atmosphere, so choosing compatible materials and avoiding over-firing is essential.     

有序分子膜技术在无机超薄膜制备中的应用

本文以LB技术、自组装技术、SILAR方法为例简要介绍了近年来有序分子膜技术在无机超薄膜构筑方面的应用。并对其今后的发展进行了展望。     

多功能性聚吡咯复合膜

聚吡咯具有较高的电导率与良好的环境稳定性，被视为继聚苯胺之后最有工业化应用前景的导电高分子材料之一。聚吡咯与常规聚合物基体如聚乙烯醇、聚氯乙烯等形成的复合膜不仅可以综合聚吡咯奇异的多功能性与常规聚合物的易成膜性和低成本性于一体，而且可望发挥两者的协同效应，从而大大拓宽其应用领域。该研究已经成为导电聚合物研究领域中的又一新热点。作者系统论述了制备这类功能复合膜的两种典型制备方法，并在分析各自特点的基础上提出了改进与发展方向，指出聚吡咯复合膜具有广泛可调的电导率、快速的电学响应性以及稳定的电致变色性等多种功能，在透明导电膜、化学传感器、生物分离膜、电致变色膜领域具有诱人的应用前景。     

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。     

聚乙炔膜的稳定化

四种抗氧剂(A、M、RDH、264)中,AM是能添加入聚乙炔膜内的一种有效抗氧剂。用氧化增重和红外分析研究了四种聚乙炔膜(PA,PA/SBR,PA/AM,PA/SBR/AM)暴露于空气中的氧化及异构化动力学行为。研究表明,各种膜在室温(25℃)空气中的耐氧化性能和抗异构化能力的次序相同:PA/SBR/AM>PA/AM>PA/SBR>PA。添加抗氧剂AM于聚乙炔中,不影响掺杂聚乙炔的优良电性能及其它性能。     

聚苯乙烯胶晶膜及三维有序大孔SiO2膜的制备及表征

采用垂直沉积法组装了三维聚苯乙烯胶晶膜,并用其为模板制备了三维有序大孔（3DOM）SiO2膜．SEM观察表明,制备的胶晶膜和3DOMSiO2膜具有fcc结构,有序性很好．考察乳液浓度对胶晶膜结构的影响表明,浓度越高,胶晶膜越厚,有序性也越高,膜在30层内都能很好的粘附在载玻片上．通过调整前驱物溶液的浓度和滴加方式,可得到表面为球形或孔状的3DOM SiO2膜．