超亲水超疏油网膜材料的研究进展

基于超亲水超疏油理论的膜材料具有低能耗、高效率、寿命长等优点,在油水分离领域具有巨大的应用前景。本文介绍了超亲水超疏油膜材料的分类及其制备思路,包括有机和无机膜材料;综述了超亲水及水下超疏油材料、刺激响应型超亲水超疏油膜材料的制备与性能研究进展;最后总结了目前超亲水超疏油膜材料存在的不足,并对未来发展方向进行了展望,应深入探究超亲水超疏油理论,同时考察膜材料结构与性能之间的影响关系。     

超亲水疏油材料的制备及其油水分离性能

含油污水的随意排放对海洋、沿海周边环境以及人类健康造成了严重的影响。传统的油水分离方法易造成环境二次污染,同时也是对有限资源的一种损耗。因此,如何高效环保地解决含油污水问题具有重要意义。物理过滤/吸附法被认为是一种高效环保的分离方法,基于仿生学原理,许多可用于物理选择性分离的超亲油疏水和超亲水疏油材料被制备出来。超亲油疏水材料易被油污染,重复利用率低;相比之下,超亲水疏油材料具有自清洁性且重复利用率高,在油水分离方面具有广阔的应用前景。根据基底材料的选择不同,本文综述了金属基以及高分子基超亲水疏油材料的研究现状,总结了其优缺点,并对今后超亲水疏油材料的研究方向和重点进行了展望。     

超亲水-水下超疏油PVDF-g-PAA多孔膜的制备及油水分离性能

采用相反转方法制备了丙烯酸(AA)接枝的超亲水-水下超疏油聚偏氟乙烯膜(PVDF-g-PAA),通过加入一定量的聚乙烯吡咯烷酮获得可用于油水分离的多孔聚偏氟乙烯膜.多孔聚偏氟乙烯膜具有较好的抗油污染性能及较高的力学强度,可以快速高效地分离油水混合体系和乳化油水体系,分离性质稳定,多次使用后对油水混合物的分离效率在98%以上,对油水乳化液的分离效率在91%以上,可广泛应用于油水混合体系和乳化油水体系的油水分离.     

具有水下超疏油性能的MXene高效油水分离膜

基于二维材料MXene(Ti₃C₂T_x)的化学组成和纳米片状结构, 在不锈钢网上制备了具有MXene微纳结构表面的新型亲水和水下超疏油分离膜. 对于不同类型的油-水混合物, 该膜材料可实现重力驱动的高效油水分离, 收集的水中残油量小于4 mg/L, 具有高分离效率(>99.99%), 水通量高达57.52 L·m^-2·s^-1. 此外, 经高温处理和多种有机溶剂浸泡后MXene膜仍具有高效的油水分离性能, 并表现出优异的稳定性和循环性.     

单宁酸/两性离子改性油-水分离膜的制备及性能

以不锈钢网为基材, 利用单宁酸对不锈钢网进行表面预处理并功能化接枝两性离子基团, 制备了新型亲水和水下超疏油的单宁酸/两性离子改性油-水分离膜(TA-ZW-SSM). 利用X射线光电子能谱仪(XPS)、 扫描电子显微镜(SEM)及接触角测量仪等表征了其化学结构、 形态和润湿性. 研究结果表明, 两性离子基团通过化学键接枝在单宁酸预处理的不锈钢网表面. 油-水分离实验结果表明, 对于不同类型的油-水混合物, 本文制备的超亲水和水下超疏油特性的TA-ZW-SSM可实现重力驱动的高效油-水分离, 并具有较好的化学稳定性及再循环性.     

基于特殊润湿性材料的油水分离

频繁发生的石油泄漏事故以及工业含油污水的违规排放不仅造成了巨大的经济损失,而且严重破坏了人类赖以生存的生态环境。为了净化被油污染的水域,研究者们近年来开始研究出了各种特殊润湿性(如超疏水或超疏油)的材料用于实现油水分离。超疏水和超疏油可以通过设计材料表面的微观几何形貌和化学分子组成来获得。通过各种微纳制备手段使材料表现出对油和水截然相反的极端润湿性,是这类材料实现油水分离的关键所在。本文首先阐述了实现油水分离的重要意义,并介绍了材料表面润湿性的相关理论基础。根据材料对水和油所表现出的不同超疏液性与超亲液性,对油水分离材料从以下三类分别介绍：(ⅰ)超疏水/超亲油材料,(ⅱ)超疏油/超亲水材料,(ⅲ)智能响应润湿性材料。对于每一类油水分离材料,本文概括了国际上近期相关的代表性研究工作,包括材料的制备方法和实现油水分离的原理和过程,以及这些材料的主要特点和应用。最后,针对基于特殊润湿性材料实现油水分离,探讨了该研究领域目前存在的主要问题和面临的挑战,并对该领域的应用前景进行了展望。     

仿生水下超疏油表面

水下超疏油表面是指在油/水/固三相体系中,对油的接触角大于150°的固体表面.从鱼体表面和荷叶下表面2种具有水下超疏油性质的生物体系出发,讨论了影响水下超疏油性质的因素,并据此提出了仿生水下超疏油表面的设计方法.通过介绍目前典型的人造水下超疏油表面的制备手段和研究进展,概括了水下超疏油体系的发展现状.对浸润性和黏附性响应性可控的智能水下超疏油体系以及水下超疏油体系在液滴操控、抗生物黏附和油水分离等领域的应用进行了简要介绍.最后对仿生水下超疏油体系目前研究存在的问题及挑战进行了总结,在此基础上展望了该领域未来的发展方向.     

超疏水超亲油铜网的制备及其在油水分离中的应用

以铜网为基底,通过浸涂法在其表面制得超疏水超亲油有机-无机复合薄膜,水滴、油滴在其表面的接触角分别为152°和10°。 线性低密度聚乙烯-SiO₂纳米球构成的复合阶层结构及低表面能线性低密度聚乙烯涂层的协同作用使铜网产生独特的润湿性。 该铜网具有很好的自清洁性和抗腐蚀性,可用于油水混合物的有效分离。 与传统方法相比,该方法制备超疏水-超亲油薄膜方法简单、成本低、无氟,有望在实践中得到应用。     

溶液浸泡结合表面涂层制备超疏水-超疏油表面

超疏水-超疏油材料在防污、防水、防油等领域有广泛的应用前景而引起人们极度关注。 本文用全氟辛酸溶液浸泡锌粉制得超疏水-超疏油锌粉,用聚乙烯醇胶将超疏水-超疏油锌粉粘合、固定到玻璃、木头、塑料、不锈钢、纸片、石头表面后可制得超疏水-超疏油表面,水滴、油滴在其表面的接触角均超过150°。 锌粉与全氟辛酸反应后生成Zn[CF₃(CF₂)₆COO]₂,氟代长链烷基的低表面能化学组成与微纳米粗糙结构的协调作用使其表现出超疏水、超疏油性能。 相关研究有望为超双疏材料的设计、制备及其在自清洁、防水防油及抗污等领域的应用提供借鉴。     

超润湿膜在乳化液破乳中的应用及作用机制

超润湿膜材料由于对水和油有独特的润湿性质,可显著提高膜材料处理乳化液的通量,有效缓解严重的膜污染问题,因此在乳化液废水处理领域受到越来越多的重视。本文从超润湿膜的设计制备、分离效果和作用机制三个方面进行分析和总结。超润湿膜材料包括超亲水膜、Janus膜和功能位点膜,主要通过构建亲水表面和粗糙结构进行膜的设计制备,其中静电纺丝法合成的交联纤维膜由于可以突破筛分效应对膜孔径的限制,在乳化液分离中具有较好的应用前景。同时,归纳超亲水膜的滤水破乳模式和Janus膜的集油破乳模式,前者具有操作压力低、过滤通量高、抗污染性能好的特点,后者具有高纯度集油的特点;并分析膜润湿性、膜孔径、膜上功能位点等膜结构性质和表面活性剂浓度大小等因素对乳化液破乳分离效能的影响规律。最后,总结液滴在膜垂向和切向上的迁移转化规律,以及在Janus膜集油破乳过程中液滴穿透过膜的机制及其力学分析探讨,该部分研究当前主要是基于液滴形态变化的推测和力学的定性分析,对于相关机制的实证和定量的力学分析还有待进一步探究。     

多环芳二酐型聚酯亚胺膜的透气性能

多环芳二酐型聚酯亚胺膜的透气性能李悦生，丁孟贤，徐纪平（浙江大学高分子科学与工程研究所，杭州，３１００２７）（中国科学院长春应用化学研究所）关键词聚醚酰亚胺，聚酯酰亚胺，膜，透气性通常的聚酰亚胺加工性能较差，在芳环二酐的苯环间引入醚键等柔性基团后，其...     

微量元素与疾病诊断治疗的研究现状及展望

对国内外微量元素与疾病的关系及其诊断治疗的研究现状及研究动向进行了综述，包括：微量元素与地方病、癌肿、心血管病、糖尿病、眼病、神经系统病等。参考文献72篇。     

Determination and study on residue and dissipation of benazolin-ethyl and quizalofop-p-ethyl in rape and soil

A QuEChERS (quick, easy, cheap, effective, rugged, and safe) method for the determination of benazolin-ethyl and quizalofop-p-ethyl in rape and soil by high-performance liquid chromatography-tandem mass spectrometry has been developed in this study. The residue and dissipation of benazolin-ethyl and quizalofop-p-ethyl in rape and soil were determined with the developed method. The half-lives of benazolin-ethyl in rape straw and soil were 3.7–5.1 days and 14.3–26.3 days, respectively. The half-lives of quizalofop-p-ethyl in rape straw and soil were 5.0-6.1 days and 0.3–9.7 days, respectively. The residue of benazolin-ethyl and quizalofop-p-ethyl in rapeseed and soil were below the detection limit (i.e., 0.5?mg?kg^?1, the maximum residue level of European Union for quizalofop-p-ethyl).     

Synthesis and Optical and Redox Properties of Symmetric and Asymmetric BODIPYs

Herein, we present the synthetic route and the photophysical, electrochemical as well as laser properties of novel red‐emitting boron‐dipyrromethenes (BODIPYs) bearing arylethyne moieties. Such functionality is added along the main axis of the chromophore leading to single‐ and double‐substituted derivatives. The relationship between the dye structure and the lasing properties is studied in detail with the help of the photophysical and electrochemical properties as well as quantum mechanical simulations. The asymmetric substitution of the parent dye induces inhomogeneities in the charge distribution, which leads to an overall loss of the fluorescence capacity, mainly in polar media. Such non‐radiative deactivation processes can be softened by decreasing the electron‐donor ability of the substituent or even avoided by symmetrical substitution. Thus, grafting of the arylethyne moieties at the longitudinal axis of the indacene core results in an effective strategy to develop red‐edge BODIPYs with highly efficient and photostable laser emission.     

Ti-V基储氢合金及其氢化物的物相结构与组分优化设计

Ti-V基储氢合金在室温、常压下即可表现出良好的储氢特性,且质量储氢容量明显高于传统AB₅型储氢合金,从而在氢气的精制和回收、运输和储存及热泵等方面有较早的应用。 此外,在混合气体分离、核反应堆中处理氢的同位素、镍氢电池及燃料电池负极材料等方面也得到了广泛的研究与关注。 基于目前Ti-V基储氢合金的研究现状,概述了该类合金的优势、限制性因素(包括成因)及改性手段。 此外,为了进一步理解Ti-V基合金储氢机理、构建合金组分与储氢特性之间的对应关系,本工作重点围绕Ti-V基储氢合金及其氢化物的结构、组分优化设计展开综述,并对其未来研究方向做出展望。     

钒与糖代谢及糖尿病

微量元素钒作为生物体内必需元素，经证实有很重要的生理学功能，与机体糖代谢有十分密切的关系，且能降低糖尿病动物模型的高血糖，极有可能被开发为治疗糖尿病的药物。     

Conformations and steric and stacking interactions of trisubstituted ureas and thioureas with alkyl and phenyl groups

The monomeric ν(N—H) vibrations of various trisubstituted ureas of the R₂UPh type and -thioureas of the R₂TUPh type have been studied. The trans—out isomerism in the former and the trans—out—cis isomerism in the latter are discussed from the point of view of steric effect. The monomeric ν(N—H) vibrations of RPhUPh and RPhTUPh are also examined. The single band appearing in the spectrum of both ureas is characteristic of the cis form; this suggests the existence of phenyl—phenyl interaction (the stacking interaction proposed by Galabov et al. [10]). Behavior of ν(N—H) vibrations at several concentrations is shown to be clearly different in the three forms (trans, out and cis). The presence of the cis form is confirmed by solvent effect experiments.     

Synthesis of Tyrosol and Hydroxytyrosol Glycofuranosides and Their Biochemical and Biological Activities in Cell-Free and Cellular Assays

Tyrosol (T) and hydroxytyrosol (HOT) and their glycosides are promising candidates for applications in functional food products or in complementary therapy. A series of phenylethanoid glycofuranosides (PEGFs) were synthesized to compare some of their biochemical and biological activities with T and HOT. The optimization of glycosylation promoted by environmentally benign basic zinc carbonate was performed to prepare HOT α-L-arabino-, β-D-apio-, and β-D-ribofuranosides. T and HOT β-D-fructofuranosides, prepared by enzymatic transfructosylation of T and HOT, were also included in the comparative study. The antioxidant capacity and DNA-protective potential of T, HOT, and PEGFs on plasmid DNA were determined using cell-free assays. The DNA-damaging potential of the studied compounds for human hepatoma HepG2 cells and their DNA-protective potential on HepG2 cells against hydrogen peroxide were evaluated using the comet assay. Experiments revealed a spectrum of different activities of the studied compounds. HOT and HOT β-D-fructofuranoside appear to be the best-performing scavengers and protectants of plasmid DNA and HepG2 cells. T and T β-D-fructofuranoside display almost zero or low scavenging/antioxidant activity and protective effects on plasmid DNA or HepG2 cells. The results imply that especially HOT β-D-fructofuranoside and β-D-apiofuranoside could be considered as prospective molecules for the subsequent design of supplements with potential in food and health protection.     

Ferrocene and ferrocenium modified clays and their styrene and EVA composites

In this work, ferrocene- and ferrocenium-containing salts were employed to modify montmorillonite. X-ray measurements show an increase in the interlayer spacing upon clay modification, which means that the larger and more organophilic cations were inserted into the gallery space of montmorillonite. Attempts to prepare nanocomposites of polystyrene and ethylene vinyl acetate copolymers lead to immiscible systems; the morphology of these systems was elucidated with TEM, XRD and cone calorimetry. The thermal stability of the composites is greater than that of the virgin polymer.