聚电解质PSS/PDDA分子沉积膜表面性能研究

PSS PDDAMD膜紫外 可见吸光度与层数呈线性关系 ,其延长线基本为零证实了是一单分子层层状沉积过程 ;利用接触角测量仪跟踪MD膜沉积过程 ,其结果表明 ,层数较少时PSS PDDAMD膜表面润湿性呈“奇 偶”性规律变化 ,层数较多时规律性不明显 ,这说明聚电解质MD膜结构缺陷随着层数的增加有增大趋势 ;通过对原子力显微镜 (AFM)测定结果的分析 ,进一步证实了多层PSS PDDAMD膜存在结构缺陷 .

摩擦偶件对PDDA/PSS分子沉积膜摩擦磨损行为的影响

利用分子沉积技术在单晶硅基底上制备了PDDA/PSS分子沉积膜。采用UV-vis吸收光谱对沉积过程进行了跟踪检测,用原子力显微镜观察了分子沉积膜的表面形貌,考察了摩擦偶件材料对PDDA/PSS分子沉积膜摩擦学行为的影响,并探讨了其磨损机制。实验结果表明,薄膜与较硬的偶件材料对摩时,剪切应力较大,薄膜很容易被磨穿,抗磨寿命极短;在相同实验条件下,薄膜与Cu球对摩时,薄膜的耐磨寿命最长,不锈钢球次之,与Si3N4球和WC球对摩时,薄膜的耐磨寿命较短。

涂覆PDDA/PSS膜的长周期光栅对湿度的响应性能

用静电自组装的方法在长周期光栅的表面制备了聚二甲基二烯丙基氯化铵/聚苯乙烯磺酸钠(PDDA/PSS)膜,并研究了它们对空气中湿度的响应。实验结果表明,随着空气绝对湿度的增加,长周期光栅传输谱的谐振峰波长逐渐向长波方向移动,在25～45℃范围内,饱和蒸气压与谐振峰波长呈现了很好的线性关系,相关系数为0.9727。涂覆PDDA/PSS膜的长周期光栅能感受空气中水蒸气的含量,有望用于制作湿度传感器。

STUDIES ON RELATION BETWEEN INTRINSIC VISCOSITY OF POLYELECTROLYTES IN SOLUTIONS USED FOR LAYER-BY-LAYER SELFASSEMBLY AND THEIR CORRESPONDING ADSORPTION AMOUNTS IN THE RESULTANT MULTILAYER MEMBRANES

The adsorption amount of poly(styrene sulfonate) and poly(dimethyldiallyl ammonium chloride) (PSS/PDDA) self-assembled multilayer membranes in designed dipping solvents were measured by UV-Vis-spectroscopy and quartz crystal microbalance (QCM). Intrinsic viscosities of PSS and PDDA in corresponding dipping solvents were determined by an Ubbelohde viscometer. It is found that the adsorption amount of PSS/PDDA self-assembled multilayer membranes built up in different dipping solutions, added salt concentration, pH of solution and solvent quality, respectively changed oppositely with the corresponding intrinsic viscosity of PSS and PDDA in dipping solvents. A negative relation between the adsorption amount and intrinsic viscosity was revealed, and explained in term of the concept of excluded volume of polymer molecule in dilute solutions.