Polyelectrolyte System(聚电解质系统)研究综述
Polyelectrolyte System 聚电解质系统 - The proposed model can be further advanced and adopted for other polyelectrolyte systems, such as sulfonated block-copolymers, polysaccharide solutions and composites, and biopolymer assemblies. [1] Different to existing technologies, this poly(N-isopropylacrylamide) gel (PNIPAM) based polyelectrolyte system doesn't require any additional materials (e. [2] Furthermore, because of the electrostatic charge distributed along the polymer chains, the presence and concentration of counter-ions play a critical role in polyelectrolyte systems. [3] An analysis of the data of photon correlation spectroscopy characterizing the sizes of the formed particles in the Ag-polyelectrolyte system is presented. [4] All the thermodynamic and surface properties of surfactant-polyelectrolyte systems have been determined by conductance and surface tension measurements respectively. [5] We quantify the ion–ion correlations unique to polyelectrolyte systems that are responsible for this surprising behavior. [6]所提出的模型可以进一步改进并用于其他聚电解质系统,例如磺化嵌段共聚物、多糖溶液和复合材料以及生物聚合物组件。 [1] 与现有技术不同,这种基于聚(N-异丙基丙烯酰胺)凝胶(PNIPAM)的聚电解质系统不需要任何额外的材料(例如 [2] 此外,由于沿聚合物链分布的静电荷,反离子的存在和浓度在聚电解质系统中起着至关重要的作用。 [3] 对表征 Ag 聚电解质体系中形成的颗粒大小的光子相关光谱数据进行了分析。 [4] 表面活性剂-聚电解质体系的所有热力学和表面性质已分别通过电导和表面张力测量确定。 [5] 我们量化了导致这种令人惊讶的行为的聚电解质系统特有的离子-离子相关性。 [6]