顺丁橡胶／酯—醚液晶复合膜的富氧性能研究

首次制成顺丁橡胶（ＰＢ）与具有二重液晶相转变（近晶相，向列相）的液晶化合物双４－（４′－乙氧基苯甲酰氧基）苯甲酸－缩乙二醇酯（ＤＥＢＥＢ）的复合膜并研究了其富氧性能，ＰＢ／ＤＥＢＥＢ复合膜的液晶含量１０％时，室温下具有基质聚合物ＰＢ膜大几倍的氧透过系数。透过系数与温度的关系曲线呈现“Ｎ”型特征，这些现象与液晶的二重相变行为和膜的形态结构有关。     

新型液晶／高聚物复合富氧膜的富氧性能及结构表征Ⅰ．液晶／高聚物复合膜的富氧性能研究

研究用烃橡胶和聚二甲基硅氧烷分散α、ω－对乙氧羰氧基苯甲酸聚乙二醇酯而得到聚合物分散液晶复合膜。用这种复合膜进行富氧分离，当ＰＥＥＣＢ－４．０５（４．０５为聚醚软段的数均聚合度ＤＰ）的含量超过某一临界值（约２３．０％ｗｔ）时，室温下ＳＢＲ／ＰＥＥＣＢ－４．０５／ＰＤＭＳ体系膜的氧气透过系数ＰＯ２值达７０－６３４ｂａｒｒｅｒ），增加约６０倍，分离系数仍较高。考察了各种影响因素对膜透气性能的影响。     

新型液晶／高聚物复合富氧膜的富氧性能及结构表征Ⅰ．液晶／高聚物复合膜的富氧性能研究

研究用烃橡胶（ＳＢＲ、ＰＢ）和聚二甲基硅氧烷（ＰＤＭＳ）分散α，ω－对乙氧羰氧基苯甲酸聚乙二醇酯（ＰＥＥＣＢ）而得到聚合物分散液晶复合膜（ＰＤＬＣＭ）．用这种复合膜进行富氧分离，当ＰＥＥＣＢ－４．０５（４．０５为聚醚软段的数均聚合度ＤＰ）的含量超过某一临界值（约２３．０％ｗｔ）时，室温下ＳＢＲ／ＰＥＥＣＢ－４．０５／ＰＤＭＳ体系膜的氧气透过系数Ｐｏ２值达７０～６３４ｂａｒｒｅｒ），增加约６０倍，分离系数仍较高（αｏ２／Ｎ２＝３．４７～２．５９）．考察了各种影响因素对膜透气性能的影响．     

新型液晶／高聚物复合膜的富氧性能及结构表征 Ⅱ．液晶／高聚物复合膜的结构表征

用ＩＲ、ＤＳＣ、ＷＡＸＤ、正交偏光显微镜、ＳＥＭ、ＴＥＭ等手段，表征了所合成的液晶／烃橡胶、硅橡胶三元共混复合膜的织态结构及液晶态转变，结果发现，液晶ＰＥＥＣＢ－４．０５由于与ＳＢＲ和ＰＤＭＳ共混，Ｔｋ－ｓ转变温度下降了３７．５℃，体系存在不完全的相分离，液晶ＰＥＥＣＢ－４．０５在体系中形成液晶富集区（ＬＣ－ｒｉｃｈ ｄｏｍａｉｎ），大小约０．２－２．２μｍ，在压力的作用下，连续的液晶富集区形成宽     

新型液晶／高聚物复合膜的富氧性能及结构表征 Ⅱ．液晶／高聚物复合膜的结构表征

用ＩＲ、ＤＳＣ、ＷＡＸＤ、正交偏光显微镜、ＳＥＭ、ＴＥＭ等手段，表征了所合成的液晶／烃橡胶／硅橡胶三元共混复合膜的织态结构及液晶态转变．结果发现，液晶ＰＥＥＣＢ—４．０５由于与ＳＢＲ和ＰＤＭＳ共混，Ｔｋ－ｓ转变温度下降了３７．５℃，体系存在不完全的相分离．液晶ＰＥＥＣＢ—４．０５在体系中形成液晶富集区（ＬＣ—ｒｉｃｈｄｏｍａｉｎ），大小约０２—２．２μｍ不等．在压力的作用下，连续的液晶富集区形成宽约７．０μｍ并垂直于膜的平面的通道．这些结果是第Ⅰ报中这类富氧膜透气率产生突变的根本原因．     

温度和压力对六氟二酐型聚酰亚胺的透气性能的影响

本文研究了温度和压力对五种六氟二酐（６ＦＤＡ）型聚酰亚胺膜对Ｈ_２、ＣＯ_２、Ｏ_２、Ｎ_２和ＣＨ_４五种气体透过性能的影响．在３０－１００℃区间，五种聚酰亚胺的透气系数与温度的关系均符合Ａｒｒｈｅｎｉｕｓ关系式；在０．３－１．２ＭＰａ区间，压力对透气系数的影响很小．６ＦＤＡ－４，４＇－二氨基二苯酮（ＤＡＢＰ）和６ＦＤＡ－３，３＇－二甲基二苯甲烷二胺（ＤＭＭＤＡ）在１００℃仍然具有较大的透气选择系数，是比较好的气体分离膜材料．     

4个新型有机磷缩合试剂的合成及其在生物活性肽合成中…

报道了４个新型有机磷化合物：Ｎ－二乙氧基磷酰并恶唑酮（ＤＥＰＢＯ０，Ｎ－（２－氧－１，３，２－二氧杂磷环己烷基）－苯并恶唑酮（ＤＯＰＢＯ），３－（２′－氧－１′，３′，２′－二氧杂磷杂环己烷基）－氧－１，２，３－苯并三嗪－４（３Ｈ）－酮（）ＤＯＰＢＴ）和３－（二乙氧基磷酰基）－氧－１，２，３－苯并三嗪－４（３Ｈ）－酮（ＤＥＰＢＴ）的合成，并研究了它们作为缩合试剂的多肽合成中的应用，研究结果表明，它     

新型聚合物／液晶复合膜的研究 Ⅱ．二氧化碳气体的分离性能

以顺丁橡胶（ｃｉｓ－ＰＢ）为高分子基质材料，与具有反应性基团的低分子液晶化合物溶液共混后成膜，后经Ｓ２Ｃｌ２气相硫化制得交联型聚合物／液晶复合膜．研究了测试温度、压力、交联时间以及成膜条件对膜的气体分离性能的影响。结果发现，制得的复合膜在５０℃以下有很好的富二氧化碳性能．在此实验条件下，Ｎ２、Ｏ２的透过系数很小，而ＣＯ２的透过系数为２．０－４．０×１０－８ｃｍ３（ＳＴＰ）ｃｍ／ｃｍ２·ｓ·ｃｍＨｇ。     

胆甾液晶二氮杂冠醚—Eu（Ⅲ）配合物LB膜和荧光性质研究

研究了胆甾液晶二氮杂冠醚Ｎ，Ｎ′－双（胆甾－５－烯－３β－氧羰甲基）－１，１０－二氮－４，７，１３，１６－四氧环十八烷（１）及其与Ｅｕ＾３＋的配合物（２），２一苯甲酸的混配物（３）的ＬＢ膜和荧光性质，结果表明：１，２和３在水溶液亚相液面形成稳定的单分子膜，但只有１的单分子面积受亚相ｐＨ的影响１，２和３的单分子膜都容易转移到石英基片上形成ＬＢ膜，其中２和３为Ｘ型，转移比分别为０．６和１．０，在ＬＢ膜     

含有机硅多嵌段共聚物的研究：IV.含有机硅多嵌段共聚物的富氧功能

研究了几种新型含有机硅二元和三元多嵌段共聚物的氧，氮选择透过性能。其中双酚Ａ聚羟基醚－聚二甲基硅氧烷二元多嵌段共聚物－（ＰＨＥ－ＰＤＭＳ）的透氧系数Ｐ０２＝５１０Ｂａｒｒｅｒ，氧氮分离系数ａ０２／Ｎ２＝２．２；聚苯醚－聚二甲基硅氧烷－聚对羟基苯乙烯三元多嵌段共聚物－（ＰＰＯ－ＰＤＭＳ－ＰＨＳ）的Ｐ０２＝１５６Ｂａｒｒｅｒ，ｄｏ２／Ｎ２＝２．４，两者都具有良好的力学性能，此外，含有机硅三元多嵌段共聚     

Permeability and morphology of poly(cis‐butadiene)/ester‐ether liquid crystal composite membranes

Various amounts of diethylene glycol bis[4‐(4′‐ethoxybenzoyloxy)benzoate] (DEBEB) were added into a poly(cis‐butadiene) (PB) membrane to improve its gas permeation ability. This type of rubber/liquid crystal (LC) composite membranes showed two obvious characteristics that are different from the gas permeation behavior reported in previous literature: (1) The permeabilities to O₂, N₂, and CO₂ were enhanced at room temperature, for example, the permeabilities for the PB/DEBEB (90/10) membrane were higher above six times than those of PB membrane under the same conditions. It is suggested that the interface microvoids probably existed on pontes between polar crystal domains and nonpolar PB matrix. (2) All relationships between the permeability coefficient (P) and temperature (T) were characterized by N‐shape, that is, there were the peaks and valleys on the P‐T curves. Furthermore, morphology studies demonstrated that when DEBEB content in the membranes was above 10 wt %, it was spherically dispersed and embedded in the PB matrix in a crystal domain state. Gas permeation characteristics of the composite membranes were appropriately interpreted as together influence results of DEBEB phase transition behavior and the membrane morphology. © 2000 John Wiley & Sons, Inc. J Polym Sci B: Polym Phys 38: 1833–1840, 2000     

Characterization and gas permeation of polycarbonateliquid crystal composite membrane

Polymer/liquid crystal composite membranes were cast from a 1,2-dichloroethane solution of polycarbonate (PC) and N-(4-ethoxybenzylidene-4'-n- butylaniline) (EBBA). The mixing state of the polymer/liquid crystal composite membrane was investigated on the basis of differential scanning calorimetry, x-ray, density, sorption isotherm and sorption—desorption studies and also by electron microscopic observations. EBBA molecules in the composite membrane exist in an almost molecularly dispersed state up to an EBBA fraction of 30 wt%, and in the case of EBBA fractions above 30 wt% form a crystal domain as the mutual continuous phase among the network of polycarbonate fibrils. The composite membrane containing EBBA of 60 wt% can be handled as a homogeneous medium when considering gas permeation.The diffusive permeability coefficient to water reveals a distinct jump in the vicinity of the crystal—liquid crystal phase transition temperature of EBBA. The permeability coefficients, P, to hydrocarbon gases increases 100-200 times over several degrees in the phase transition temperature range. P for hydrocarbon gases decreases with increasing number of carbon atoms below the phase transition temperature, but increases with increasing number of carbon atoms above it. These results suggest that the permeation process is predominantly controlled by diffusion mechanism below the transition temperature of EBBA, while the solubility factor significantly affects gas permeation above it.     

Molecular Filtration of Hydrocarbon Isomers Through Polymer/[Liquid Crystal] Composite Membranes

Ultrathin membranes of a polymer/(liquid crystal) mixture were prepared by spreading a single drop of a casting solution on the water surface. The thickness and the aggregation state of the water-cast membrane can be controlled by the kind of solvent and the concentration of the solution. In the case of a liquid crystalline state above the crystal-nematic phase transition temperature, T _KN, the polymer (liquid crystal) composite membrane follows Henry's law for the sorption isotherm of hydrocarbon gases and, also, Fickian sorption for the sorption-desorption kinetics. These results indicate that hydrocarbon gases permeate through a homogeneous medium composed of liquid crystalline molecules. Therefore, the permeability coefficients of hydrocarbon gases can be controlled by the dimensions of the channels through which the gas molecules diffuse. The channel for diffusion is generated by thermal or fluctuating molecular motion which opens up the intermolecular distance between liquid crystalline molecules. In the case of a self-supported liquid crystalline membrane, the channel dimension can be controlled in the range of several Å by both the intermolecular distance and the degree of thermal molecular motion of the liquid crystalline molecules. Separation of hydrocarbon isomers was investigated by use of composite membranes composed of a polymer matrix and self-supported liquid crystalline molecules.     

聚环氧氯丙烷／液晶复合富氧膜的研究

研究了聚环氧氯丙烷(PECHCH)/N(4-乙氧基苄叉)4-丁基苯胺(EBBA)复合膜对氧气和氮气的透过性和选择性。用示差扫描量热计(DSC)、解偏振光强仪(DLI和偏光显微镜考察了复合膜的形态结构。结果表明,当PECH/EBBA复合膜处于液晶的向列相转变温度时,有较高的气体透过性和选择性。发现只有复合膜中EBBA含量在30wt％以上,PECH和EBBA呈非均相混合时,才有较明显的富氧效果。当EBBA含量达50wt%时,氧氮分离系数α=3.78。     

新型聚合物／液晶复合膜的研究：Ⅰ.膜材料对气体分离性能的影响

用顺丁橡胶，丁苯橡胶及聚氯乙烯与带有ＣＨ２＝ＣＨ－端基的液晶化合物共混，溶液浇铸法成膜，橡胶／液晶复合膜利用Ｓ２Ｃｌ２蒸气交联。用体积法测定膜的透气性，着重研究了不同基质材料及不同液晶类型对气体分离性能的影响。结果表明顺丁橡胶／液晶复合膜的透气系数最高，且分离性能也最好。     

Gas transport in polybutadiene treated with aqueous bromine

Diffusion, solubility, and permebility coefficients were measured for He, Co₂, Ar, and CH₄ in polybutadiene (PB) and in polybutadiene reacted in the solid state to various extents with aqueous bromine. Analysis of the sorption curves and X-ray emission spectra showed that the bromination created a heterogeneous membrane with an outer brominated skin and an unreacted core. At relatively low extent of bromination, the diffusion and permeability coefficients for CO₂, Ar, and CH₄ decreased by two orders of magnitude, while the transport coefficients for He were virtually unchanged. The permeability coefficients for CO₂, Ar, and CH₄ became immeasurably small after about 3% bromination. The ideal separation factor for gas pairs with different molecular size increased with bromination, suggesting applications in gas separation processes. © 1993 John Wiley & Sons, Inc.     

STUDIES ON THE PERMEABILITY OF P VC/EBBA OVERLAPPED ULTRATHIN COMPOSITE MEMBRANES MODIFIED BY PLASMA-POLYMERIZATION WITH FLUOROCARBON MONOMERS

The PVC/EBBA ultrathin composite membranes with thickness of about 100 nm were prepared by spreading the solution on water surface. The overlapped composite membrane showed a characteristic aggregation structure in which the polymer matrix exists as a three-dimensional spongy network and the liquid crystal domains werc observed. Tne surface modification for the overlapped membranes was carried out by means of plasma-polymerization with the monomers of fluorocarbon compounds. Both Arrhenius plots of permeability coefficients for oxygen ((?)_O_2) in the membrane samples before and after modification showed significant increase in the vicinity of the T_(KN) of EBBA.     

磺化聚醚醚酮/三羧基丁烷膦酸锆复合质子交换膜的研究

通过在磺化聚醚醚酮(SPEEK)中掺杂1,2,4-三羧基丁烷-2-膦酸锆(Zr(PBTC))制备出SPEEK/Zr(PBTC)复合质子交换膜.结果表明,与纯SPEEK膜相比,Zr(PBTC)的掺杂能降低复合膜的吸液量及甲醇透过系数,且随着Zr(PBTC)含量的增加,这种作用越趋明显.在室温至80℃范围内,复合膜的甲醇透过系数在10-7cm2.s-1数量级上,远小于Nafion115膜.在饱和湿度下,当温度大于90℃时,含40wt%Zr(PBTC)的复合膜电导率超过Nafion115膜,并在160℃时达到0.36S.cm-1.使用温度的提高及在高温下的高电导率表明该复合膜适合在高温DMFC中使用.     

Carrier‐Mediated Transport of Hg(II) through Bulk and Supported Liquid Membranes

The transport of Hg (II) ions from an aqueous solution into an aqueous receiving solution through bulk and supported liquid membranes containing a calix[4]arene derivative 1 as a carrier was examined. The kinetic parameters of bulk liquid membrane studies were analyzed assuming two consecutive, irreversible first‐order reactions. The influence of temperature, stirring rate, carrier concentration and solvent on the kinetic parameters (k₁, k₂, R_m ^max, t_max, J_d ^max, J_a ^max) has also been investigated. The membrane entrance rate, k₁, and the membrane exit rate, k₂, increased with increasing temperature and stirring rate. The activation energy values are calculated as 4.87 and 48.63 kj mol^?1 for extraction and reextraction, respectively. The values of calculated activation energy indicate that the process is diffusionally controlled by species. Also, the transport behavior of Hg²⁺ from aqueous solution through a flat‐sheet supported liquid membrane has been investigated by the use of calix[4]arene derivative 1 as carrier and Celgard 2500 as the solid support. A Danesi mass transfer model was used to calculate the permeability coefficients for each parameter studied. The highest values of permeability were obtained with 2‐nitrophenyloctyl‐ether (NPOE) solvent and the influence was found to be in the order of NPOE>chloroform>xylene.     

新型含钴硅橡胶离聚体膜的富氧性能

硅橡胶 ( PDMS)是最早使用的气体分离膜材料 ,其氧透过系数较高 ( PO2 =6 0 0 Barrer) ,但氧氮分离系数低 ( αO2 /N2 =2 .0 ) ,成膜性及膜强度差 ,因而限制了其应用 .PDMS改性一直是气体分离膜研究的重要课题[1] ,提高氧氮分离性 ,改善成膜性 ,而不影响其透气性 ,成为人们追求