腐蚀介质在缓蚀剂膜中扩散行为的分子动力学模拟

采用分子动力学模拟方法,从缓蚀剂膜阻碍腐蚀介质粒子(H2O、H3O+和HCO3-)向金属表面扩散的角度,研究了4种1-R1-2-十一烷基-咪唑啉缓蚀剂(R1:羧甲基(A),羟乙基(B),氨乙基(C),氢(D))抑制碳钢CO2腐蚀的缓蚀机理,并对其缓蚀性能进行了理论评价.腐蚀介质粒子在不同缓蚀剂膜中的扩散系数、粒子与膜的相互作用能以及膜的自扩散性能的计算结果表明:4种缓蚀剂均可形成稳定的缓蚀剂膜,能有效阻碍腐蚀介质粒子向金属表面的扩散,达到抑制或延缓腐蚀的目的;随亲水支链(R1)极性的增加,缓蚀剂膜对腐蚀介质粒子扩散行为的抑制能力逐渐增强;同种缓蚀剂膜对正负离子H3O+和HCO3-比对中性的H2O分子具有更强的扩散抑制能力.综合计算及分析结果,4种缓蚀剂缓蚀性能的理论评价结果为ABCD,与文献实验结果吻合.     

功能化聚丙烯腈纳米纤维膜同时高效萃取莠去津及其毒性代谢物

研制了一种新型固相萃取(SPE)介质,用于同时高效萃取莠去津(ATZ)及其两种毒性代谢产物脱乙基莠去津(DEA)和脱异丙基莠去津(DIA),为全面客观地评价ATZ的水污染状况提供基础.以聚丙烯腈纳米纤维(PAN NFs)膜为基底膜,制备了3种功能化的NFs膜.吸附容量和吸附效率实验结果表明,羧基修饰的PAN NFs(COOH-PAN NFs)膜对3种目标物的静态和动态吸附容量分别为2.00和0.19 mg/g,动态吸附流出率低于30.0％,显著优于其它3种NFs膜,且对极性较大的目标物保留最强,表明其为同时高效吸附ATZ、 DIA和DEA的优势SPE介质,且主要通过羧基基团与目标物之间形成的氢键进行目标物吸附.采用基于COOH-PAN NFs膜的SPE,结合高效液相色谱-二极管阵列检测器(HPLC-DAD),建立了同时检测水样中ATZ、 DIA和DEA的方法,方法回收率为81.4％～120.3％, DIA检出限(LOD, S/N=3)为0.12 ng/mL,DEA和ATZ的检出限为0.09 ng/mL,可应用于实际水样监测.     

热释电Langmuir-Blodgett膜结构的光谱研究

利用Langmuir-Blodgett(LB)技术对偶氮苯衍生物进行极性分子组装. 紫外-可见吸收光谱显示该膜具有类H聚集效应, 利用红外线性二向色性光谱获得了分子的主要极性功能团的跃迁矩与膜表面法线的夹角, 并结合其它光谱信息, 给出了膜结构模型, 就此对其优越的热释电性能做出解释.     

聚苯乙烯/聚二甲基硅氧烷嵌段与接枝共聚物表面聚集态的研究

利用ATR单点全反射技术以及XPS(X光电子能谱 )测试方法对聚苯乙烯 聚二甲基硅氧烷嵌段 (PS b PDMS)和接枝共聚物 (PS g PDMS)进行了研究 ,发现聚合物膜表面存在着有机硅富集层 ,PS b PDMS有机硅表面富集程度要高于PS g PDMS ,而且不同溶解度参数的成膜溶剂和不同极性的成膜介质对有机硅富集程度有一定的影响 .     

稀土离子及其配合物与磷脂脂质体的相互作用

用核磁共振(NMR)方法研究了稀土离子及其配合物与二棕榈酰磷脂酰胆碱(DPPC)和鞘磷脂(SPM)脂质体的相互作用.磷脂极性头平行于膜平面.稀土离子与磷脂极性头P—O键键合,与经典模型不同,键合后极性基团仍平行于膜平面,而不是垂直于膜平面.稳定的稀土配合物对磷脂脂双层结构影响很小.将稀土离子引入磷脂脂质体和小分子配体的混合物中,稀土首先与小分子配体配位.     

离子液体-非极性溶剂微波提取法在人参化学成分研究中的应用

以离子液体作为微波吸收介质建立了离子液体-非极性溶剂微波提取法,对人参中的化学成分进行了提取,并将该法与固体微波吸收介质-非极性溶剂微波提取法、极性溶剂微波提取法以及混合溶剂微波提取法进行了对比.结果表明,极性溶剂提取的主要化学成分为极性化合物,而固体微波吸收介质-非极性溶剂微波提取法与离子液体-非极性溶剂微波提取法相比,提取所得的化学成分并无明显差别,说明离子液体是一种较好的微波吸收介质和能量传递材料.所建立的方法具有提取时间短、操作简单及绿色环保等优点,且对后期分析无明显影响,是快速提取化学成分的理想方法.     

聚醚硅油表面迁移行为对聚苯乙烯表面极性的影响

利用变角衰减全反射傅立叶变换红外光谱(ATR-FTIR)法和接触角,分析了聚醚硅油在聚苯乙烯共混物薄膜表面的选择性富集行为及对其表面结构和表面极性的影响,认为接触介质的表面性质是影响共混物中各组分产生选择性迁移扩散的重要影响因素.强极性介质的诱导作用可以在共混物表面层中产生剧烈变化的浓度梯度,而弱极性介质所产生的表面浓度梯度比较缓和.     

聚-4-偶氮磺酸基苯乙烯与四-(三甲氨基苯基)-卟啉的自组装膜及其光电转换性能

聚-4-重氮基苯乙烯(PDS)在碱性水溶液下通过与Na₂SO₃反应,制备了聚-4-偶氮磺酸基苯乙烯(PDSS).作为负离子聚电解质PDSS能与四-(三甲氨基苯基)-卟啉(TTMAP)通过离子相互作用进行层-层自组装.光照下该组装膜中的离子键转变为共价键,结果是组装膜对极性溶剂和盐水溶液变为非常稳定,从而能直接在KCl水溶液中测定其光电流.结果表明,该组装膜具有良好的光电转换性质.     

单分散磁性P(St/BA/MAA)微球的制备

在共沉淀法合成超细磁流体的基础上 ,以苯乙烯 (St)、丙烯酸丁酯 (BA)和甲基丙烯酸 (MAA)为共聚单体 ,在不同的介质体系中采用无皂乳液聚合法制备了单分散 ,粒径范围为 80～ 2 30nm的磁性P(St BA MAA)微球 .详细探讨了介质极性、磁流体中表面活性剂含量对磁性高分子微球粒径和单分散性的影响 .实验结果表明 ,在一定范围内随介质极性降低 ,磁性高分子微球的单分散性提高 ,随表面活性剂用量增加 ,单分散性变差 .总体来看 ,磁性高分子微球的单分散性与其表面静电斥力密切相关 ,过大或过小的静电斥力均会导致磁性高分子微球单分散性的降低 .     

磷脂酸Langmuir-Blodgett膜分子结构的原子力显微术研究——分子排列有序性,分子间氢键作用,超分子结构以及晶格结构转变

利用原子力显微镜(AFM)研究了二棕榈酰磷脂酸(DPPA)的单层,双层和三层Langmuir-Blodgett膜的分子排列结构,发现相邻的(2～6个)DPPA分子的极性头磷酸基团通过分子间氢键形成局域超分子结构.分子分辨的AFM图象表明,DP-PA LB膜中分子排列具有长程的取向和位置有序.DPPA分子的晶格排列随着LB膜层数的增加由单层和双层的六方晶格转变成三层的正交(四方)晶格.探讨了不同的pH下的DPPA极性头磷酸基团的分子间氢键作用及其对膜分子有序排列以及云母基片对DPPALB膜中分子排列的晶格结构的影响.     

STUDIES ON THE SELF-DIFFUSION OF WATER ETHANOL MIXTURE IN CHITOSAN PERVAPORATION MEMBRANE WITH PULSED FIELD GRADIENT NMR DATA

The self-diffesion of water, ethanol and water-ethanol mixtures in chitosan (CS) membranes crosslinked byaqueous H_2SO_4 solution and uncrosslinked membrane was measured using pulsed-field gradient (PFG) nuclear magneticresonance (NMR) spectroscopy to obtain the partial solubilities and self-diffusion coefficients. An attempt was made toexplain the transport properties of water and ethanol through the CS membrane. It was concluded that there are two types ofchannel water and ethanol diffesate transfer. The water was localized in the hydrophilic ionic region formed by the ionizedgroups, and the ethanol was localized in the hydrophobic amorphous network of the polymer. There was a good agreementbetween the separation fastors estimated from PFG-NMR data and those obtained by pervaporation testing.     

凝胶形成动态过程在线监测方法的比较

以醋酸介质中戊二醛（Ｇｌｕ）交联壳聚糖（ＣＳ）水凝胶的形成为例,研究比较了粘度法,电导法,光度法和荧光探针法用于监测凝胶形成动态过程的可行性性和特点,结果表明：粘度法具有简单、直观等优点,但粘度法不能够跟踪凝胶点（ｇｅｌｌｉｎｇｐｏｉｎｔｓ）后体系的进一步变化,旋转粘度法在测定时对体系的扰动不容忽视。电导法和光度法跟踪的是引起凝胶化的交联反应过程,但溶液到凝胶的转化往往发生在交联反应完成之前,因此所得结果未必与宏观观察结果相一致,荧光探针法具有适用面宽,可供选用的探针种类多、方法灵活等特点,对于研究凝胶形成动态过程具有普适性,该法还可用于凝胶性质的研究。     

丙烯酸交联壳聚糖渗透汽化膜研究（Ⅱ）──乙醇／水混合液的渗透汽化分离性能

丙烯酸交联壳聚糖渗透汽化膜研究（Ⅱ）──乙醇／水混合液的渗透汽化分离性能钟伟，李文俊，葛昌杰，陈新（复旦大学高分子科学系，上海，２００４３３）关键词交联壳聚糖，渗透汽化，丙烯酸，乙醇／水混合液混合液体的渗透汽化（简称ＰＶ）膜分离自８０年代实现工业化以...     

Maleic Anhydride Crosslinked Alginate-Chitosan Blend Membranes for Pervaporation of Ethylene Glycol-Water Mixtures

Calcium alginate-chitosan (CA/CS) blended membranes were prepared and crosslinked with maleic anhydride (MA) for the pervaporation (PV) separation of ethylene glycol (EG)/water mixtures at 30°C. The structure and properties of blend membranes were studied with the aid of FTIR, XRD, TGA, and SEM. The effect of experimental parameters such as feed composition, membrane thickness, and permeate pressure on separation performance of the MA crosslinked membranes were determined in terms of flux, selectivity, and pervaporation separation index. Sorption studies were carried out to evaluate the extent of interaction and degree of swelling of the blend membranes in pure, as well as in binary mixtures. The experimental results suggested that the crosslinked membrane (M-CA/CS) exhibited a good selectivity of 302 at a normalized flux of 0.38 kg.m^{? 2}.h^{? 1}.10 μ m at 30°C for 96.88 wt% EG aqueous solution.     

Electron spin resonance investigation of microscopic viscosity, ordering, and polarity in Nafion membranes containing methanol-water mixtures

Electron spin resonance (ESR) was used to monitor the local environment of 2,2,6,6-tetramethyl-4-piperidone N-oxide (Tempone) spin probe in water and methanol mixtures in solution and in Li(+) ion exchanged Nafion 117 membranes. Solution spectra were analyzed using the standard fast-motion line width parameters, while membrane spectra were fitted using the microscopic order macroscopic disorder (MOMD) slow-motional line shape program of Freed and co-workers. The (14)N hyperfine splitting, aN, which reflects the local polarity of the nitroxide probe, decreases with increasing methanol concentration, consistent with the decrease in solvent polarity. The polarity depended only weakly on composition in the Nafion membrane, but was noticeably more temperature-dependent. The microviscosity of the membrane aqueous phase as reflected by the rotational correlation time (tauc) of the probe, was nearly 2 orders of magnitude longer in the membrane than in solution and varied by an order of magnitude over the composition range studied. The probe exhibits significant local ordering in the aqueous phase of Nafion membranes that is diminished with increasing methanol concentration.     

丙烯酸交联壳聚糖渗透汽化膜研究（Ⅰ）——膜结构及交联机理

报道了一种新型渗透汽化膜－－丙烯酸交联壳聚糖膜，通过溶胀、拉伸、渗透汽化分离以及红外光谱等手段研究了膜的结构和交联机理。实验结果表明，交联反应由两部分组成：丙烯酸的双键和壳聚糖的氨基的加成反应和丙烯酸另一端的羧基和壳聚糖的氨基的酸碱中和反应。     

荧光探针法研究壳聚糖水凝胶形成过程及其性能

基于芘(Py)单体荧光光谱结构对微观环境变化的敏感性,以及介质粘度及Py分子间距对Py激基络缔合物形成的影响,以戊二醛交联壳聚糖(CS)水凝胶体系为例研究了Py荧光探针法监测水凝胶形成过程及其溶胀性能的可行性。结果表明,Py荧光光谱精细结构的变化(以I~3/I~1为参量)或Py激基缔合物荧光强度与单体荧光强度之比(I~E/I~M)的变化与CS水凝胶的形成及溶胀程度有很好的对应关系。此外,CS凝胶网状结构中包埋的聚N-异丙基丙烯酰胺(PNIPAM)的构象变化也可由探针光谱变化反映出来。利用这种荧光探针方法有助于从分子水平上探知凝胶形成过程的微观本质。此外,这种方法也可作为光纤传导监测凝胶形成过程和溶胀的基础。     

硫酸对壳聚糖膜分离性能影响的本质

研究了Ｈ２ＳＯ４对壳聚糖（ＣＳ）膜醇水分离性能的影响．结果表明，Ｈ２ＳＯ４使ＣＳ上的—ＮＨ２质子化为—ＮＨ＋３，降低了极性较差的乙醇分子进入膜内的能力，提高了膜对水分子的吸附选择性．又因为ＳＯ２－４可以与２个—ＮＨ＋３作用，使部分ＣＳ链产生交联，缩小了分子透过的通道．由于乙醇分子比水分子大，故大大提高了膜对水的渗透选择性．所以，Ｈ２ＳＯ４能提高ＣＳ膜的醇水分离性能是以上两种因素综合作用的结果．     

Preparation and Characterization of Chitosan Composite Membranes Crosslinked by Carboxyl-capped Poly（ethylene glycol）

In this study a series of chemically crosslinked chitosan/poly（ethylene glycol） （CS/PEG） composite membranes were prepared with PEG as a crosslinking reagent other than an additional blend. First, carboxyl-eapped poly（ethylene glycol） （HOOC-PEG-COOH） was synthesized. Dense CS/PEG composite membranes were then prepared by casting/evaporation of CS and HOOC-PEG-COOH mixture in acetic acid solution. Chitosan was chemically crosslinked due to the amidation between the carboxyl in HOOC-PEG-COOH and the amino in chitosan under heating, as confirmed by FTIR analysis. The hydrophilicity, water-resistance and mechanical properties of pure and crosslinked chitosan membranes were characterized, respectively. The results of water contact angle and water absorption showed that the hydrophilicity of chitosan membranes could be significantly improved, while no significant difference of weight loss between pure chitosan membranes and crosslinked ones was detected, indicating that composite membranes with amidation crosslinking possess excellent water resistanance ability. Moreover, the tensile strength of chitosan membranes could be significantly enhanced with the addition of certain amount of HOOC-PEG-COOH crosslinker, while the elongation at break didn＇t degrade at the same time. Additionally, the results of swelling behaviors in water at different pH suggested that the composite membranes were pH sensitive.     

Chitosan/PEO nanofibers electrospun on metallized track-etched membranes: fabrication and characterization

The development of next-generation adsorption, separation, and filtration materials is growing with an increased research focus on polymer composites. In this study, a novel blend of chitosan (CS) and polyethylene oxide (PEO) nanofiber mats was electrospun on titanium (Ti)-coated polyethylene terephthalate (PET) track-etched membranes (TMs) with after-treatment by glutaraldehyde in the vapor phase for enhancing the nanofiber stability by crosslinking. The prepared composite, titanium-coated track-etched nanofiber membrane (TTM-CPnf) was characterized by Fourier transform infra-red (FTIR), water contact angle, and scanning electron microscopy (SEM) analyses. Smooth and uniform CS nanofibers with an average fiber diameter of 156.55 nm were produced from a 70/30 CS/PEO blend solution prepared from 92 wt. % acetic acid and electrospun at 15 cm needle to collector distance with 0.5 mL/h flow rate and an applied voltage of 30 kV on the TTM-CPnf. Short (15 min) and long (72 h)-term solubility tests showed that after 3 h, crosslinked nanofibers were stable in acidic (pH = 3), basic (pH = 13), and neutral (pH = 7) solutions. The crosslinked TTM-CPnf material was biocompatible based on the low mortality of freshwater crustaceans Daphnia magna. The composite membranes comprised of electrospun nanofiber and TMs proved to be biocompatible and may thus be suitable for diverse applications such as dual adsorption–filtration systems in water treatment.