酚类分子结构和纳滤膜特性对截留率的影响规律

选择21种酚类化合物作为模型污染物,分别测定了三种不同纳滤膜对酚类化合物的截留率.结果表明,酚类化合物截留率受到取代基位置、种类和膜特性的影响.对NF270膜和NF膜而言,截留率从大到小的次序为邻位>间位>对位,而NF90膜的截留率为邻位>对位;供电子取代基有增大截留率的趋势,吸电子取代基有减小截留率的趋势;孔径小、荷电量大的纳滤膜截留率更大.通过基于遗传算法的偏最小二乘回归法(GA-PLS),建立了纳滤膜对酚类化合物截留率的定量构效关系模型,通过分析回归方程,可以看出酚类化合物的pKa值对截留率影响最大,影响较大的还有偶极矩等参数.     

Treatment of biologically treated effluents from baker's yeast industry by membrane and ozone technologies

This paper presents pilot‐scale membrane treatment results performed on biologically treated effluents from fermentation industry and ozone oxidation on concentrates from the same membrane treatment system. The results obtained from the ultrafiltration (UF) and/or the reverse osmosis (RO) systems indicate that membrane treatment are very effective for COD, Color, NH₃‐N and conductivity removal. Ozone oxidation of the membrane concentrates was tested to increase biodegradability of the wastes. The initial ratios of Biochemical oxygen demand (BOD₅) to Chemical oxygen demand (COD) were increased significantly by applying chemicaloxidation with O₃ and O₃ + H₂O₂.     

Effects of lithium on membrane fluidity and lipid profile in brain membranes of aluminum-treated rats

The effects of lithium (Li) supplementation on lipid profile and fluidity of cerebrum and cerebellum membranes in aluminum (Al)-treated rats were investigated. A significant decrease in the levels of total lipids and cholesterol was observed in both the regions following Al exposure, which however were significantly increased following Li supplementation. Further, glycolipids and gangliosides contents were significantly decreased in cerebrum, but increased in cerebellum following Al treatment. Interestingly, Li supplementation reversed the trends and regulated the levels of glycolipids and gangliosides. Al treatment also elevated conjugated diene formation and phospholipid levels in both cerebrum and cerebellum membranes, which however were decreased upon Li supplementation. The cholesterol/phospholipid ratio however was decreased after Al treatment and Li supplementation was able to enhance the ratio in both cerebrum and cerebellum. Further, Al treatment significantly increased the fluorescence polarization, anisotropy and order parameter, which however were normalized following Li supplementation. The levels of Al were also found to be significantly elevated in cerebrum and cerebellum after Al treatment and normalized in cerebellum following Li treatment. Therefore, the present study shows the potential of Li in regulating the changes produced by Al on membrane composition and fluidity in rat brain.     

Electrophoretic and liquid chromatographic characterization of red cell membrane proteins modified by chromate

Besides its effects of the genetic material and function, chromate also immediately affects the structure and function of cell membranes. With human erythrocytes, chromate produces alterations in cell size and shape, it impairs the anion transport function, and it causes modifications in membrane constituents. The proteins have been analysed by one‐ and two‐dimensional gel electrophoresis and by fast protein liquid chromatography (FPLC). The main chromate effects are the crosslinking of proteins including the membrane protein bands 1 and 2 (spectrin) and haemoglobin. Furthermore, a 40.000 D membrane protein fraction is modified. Chromate may react directly with membrane constituents but evidence also points to the formation of reactive oxygen compounds which in turn may react with proteins and lipids of the cell membrane.     

锂离子电池用新型复合聚合物电解质膜的性能研究

聚合物电解质膜是影响锂离子电池性能的重要因素,通过对聚合物的改性,能够改善聚合物电解质膜综合性能.本文以偏氟乙烯-六氟丙烯共聚物[P(VDF-HFP)]为基,以N甲基吡咯烷酮(NMP)作溶剂,γ-丁内酯(γ-BL)作添加剂,用倒相湿法制备出复合聚合物电解质膜,并对其离子传递、膜结构和电化学性能进行了研究.用限制扩散方法测定了该电解质膜的锂离子扩散系数为5.68×10-10 cm2·s-1;用稳态极化法测定了该电解质膜的迁移数为0.61;用交流阻抗法测得该电解质膜的室温最高电导率可达1.73×10-3S·cm-1.测试结果表明,该聚合物电解质膜具有较好的离子传输性质和电化学性能.     

Bioinspired and biomimetic membranes for water purification and chemical separation: A review

•The history of biological and artificial water channels is reviewed. •A comprehensive channel characterization platform is introduced. •Rationale designs and fabrications of biomimetic membranes are summarized. •The advantages, limitations, and challenges of biomimetic membranes are discussed. •The prospect and scalable solutions of biomimetic membranes are discussed. Bioinspired and biomimetic membranes that contain biological transport channels or attain their structural designs from biological systems have been through a remarkable development over the last two decades. They take advantage of the exceptional transport properties of those channels, thus possess both high permeability and selectivity, and have emerged as a promising solution to existing membranes. Since the discovery of biological water channel proteins aquaporins (AQPs), extensive efforts have been made to utilize them to make separation membranes–AQP-based membranes, which have been commercialized. The exploration of AQPs’ unique structures and transport properties has resulted in the evolution of biomimetic separation materials from protein-based to artificial channel-based membranes. However, large-scale, defect-free biomimetic membranes are not available yet. This paper reviews the state-of-the-art biomimetic membranes and summarizes the latest research progress, platform, and methodology. Then it critically discusses the potential routes of this emerging area toward scalable applications. We conclude that an appropriate combination of bioinspired concepts and molecular engineering with mature polymer industry may lead to scalable polymeric membranes with intrinsic selective channels, which will gain the merit of both desired selectivity and scalability.