PEP与阴离子表面活性剂复配体系泡沫性能的研究

研究了PEP型非离子表面活性剂分别与十二烷基苯磺酸钠（DBS）,十二烷基硫酸钠（SDS）形成复配体系的泡沫性能,讨论了浓度及配比的变化对泡沫性能的影响,结果表明起泡性和稳泡性皆随混合表面活性剂的浓度的上升而增强;在一定浓度下,随着PEP比例下降,起泡性和稳泡性也随着增大,并达到稳定值。     

八甲基环四硅氧烷一氯代物微乳液聚合及其消泡性能

八甲基环四硅氧烷一氯代物;有机硅微乳液;微乳液聚合;消泡性能     

热塑弹性体超临界流体间歇发泡过程中的基本问题

超临界流体间歇发泡的体系黏弹性易于调节、加工参数易于控制、加工装备便于设计和实现,是热塑弹性体物理发泡领域中最受关注的技术路线.本文首先综述了热塑弹性体物理发泡相关文献、研发历程和应用现状;阐明间歇发泡技术的相关概念、技术特点以及热塑弹性体与超临界流体的相互作用,重点讨论热塑弹性体间歇发泡的“高弹态发泡”特征以及处于高弹态状态下的泡孔成核、泡孔生长、泡孔结构定型、泡沫收缩机制及其调控策略.其次,综述了热塑弹性体发泡薄膜的制备方法、热塑弹性体发泡珠粒水蒸气成型过程、珠粒界面黏结强度和分子链界面扩散机制.此外,还从分子链化学结构、泡孔结构、材料宏观结构等角度总结了热塑弹性体发泡材料弹性性能,揭示热塑弹性体发泡材料的结构—弹性性能关系.最后对热塑弹性体超临界流体间歇发泡技术进行了展望.     

电容法研究卵磷脂/氨基酸/H2O胶束和囊泡体系

运用电容法研究卵磷脂/氨基酸/H2O胶束和囊泡体系结构与性质. 卵磷脂的临界胶束浓度和囊泡生成浓度可由体系电容-卵磷脂浓度关系曲线求得.随着卵磷脂浓度增加, 体系电容增加, 卵磷脂由胶束形成囊泡. 随着氨基酸浓度增加, 胶束、囊泡半径增大, 体系电容减小. 氨基酸能促进卵磷脂形成胶束和囊泡, 使得卵磷脂临界胶束浓度和囊泡生成浓度减小, 其影响的强弱顺序为组氨酸>色氨酸>>甘氨酸.     

聚酰亚胺泡沫材料的制备与性能表征

采用3,3′,4,4′-二苯甲酮四甲酸二酐(酮酐,BTDA)和4,4′-二氨基二苯甲烷(MDA)为主要原料制备了一种聚酰亚胺泡沫材料.采用傅里叶变换红外光谱(FTIR)、核磁共振氢谱(1H-NMR)、扫描电镜(SEM)、导热系数测定仪、热失重分析(TGA)、差式扫描量热分析(DSC)及驻波管分别对前聚体粉末化学结构、泡沫泡孔结构、热性能及声学性能进行了表征.研究结果表明前聚体粉末以聚酰胺酯和铵盐两种形式存在,所得泡沫泡孔均匀,并且随前聚体干燥温度升高,泡孔尺寸变小.泡沫的导热系数λ为7.62×10-3W/(m.K),失重5wt%的分解温度Td5为540℃,玻璃化转变温度Tg为306℃,表明其具有优良的隔热耐热性.并且由声学测试可知在0～2000Hz频率范围内,吸声系数可达0.79,传声损失可达19.4dB,具有低频吸声、隔声性.     

基于超分子环糊精两亲分子的敏感型囊泡体系

敏感型囊泡可初步概括为由两亲分子通过非共价键构筑的、对外界的刺激具有特色响应性的一类新型囊泡体系。由"超分子环糊精两亲分子"自组装形成的囊泡体系是该类体系中重要的一类。本文重点介绍了环糊精参与的"超分子环糊精两亲分子"囊泡体系的研究进展。以与环糊精复合的化合物结构类型不同进行分类,介绍了该类囊泡体系的制备以及该体系在医药工程、新型"智能"材料以及生物模拟等方面的潜在应用;结合现阶段的研究状况,对该类囊泡体系的发展前景进行了展望。     

新型含苯硼酸和萘双亲化合物的合成与囊泡荧光传感器的制备

合成了含有识别基团苯硼酸和荧光基团萘的新型对-[(5-十二烷氧基-1-氧基)萘]甲基苯硼酸{p-[(5-dodecyloxy-1-oxy) naphthalene] methyl-phenylboronic acid, DNMPBA}双亲化合物; 该化合物在THF/水选择性溶剂中自组织成囊泡, 囊泡的相变温度为56.8 ℃; 当向囊泡体系加糖时, DNMPBA囊泡中的萘生色基在345 nm的荧光峰强度急剧增强; 荧光强度随添加不同糖的变化趋势为果糖>葡萄糖>麦芽糖>乙二醇. 荧光强度增强可能归因于所形成的硼酸酯减弱了DNMPBA双亲化合物中一个氧原子孤对电子对萘生色基的猝灭作用而使荧光强度重新恢复. DNMPBA囊泡与糖的相互作用导致体系荧光强度变化, 使该体系有可能应用于检测生物物质如糖的化学传感器.     

鼓泡浆液反应器的应用开发研究：Ⅱ液相混合与传热特性

研究了以粉体氧经铝水合物为固相的鼓泡浆液反应器的传热性能和温度分布及沸合特性。结果表明两相和三相体系的传热速度均随表观气速的增大而增大，固相的加入强化了体系的传热效果，但固体浓度大小无明显影响。     

可聚合囊泡体系(烯丙基-二甲基-十二烷基溴化胺和十二烷基硫酸钠)在溶液中的盐效应

高稳定的囊泡广泛用于制作生物模型、药物输送以及合成纳米材料的模板。获得高稳定囊泡结构的重要方法之一是用聚合反应固定囊泡结构。作为可聚合囊泡制备的前期基础工作,研究了一种可聚合的囊泡体系：1-丙烯基－2,2,二甲基－十二烷基溴化胺（ADDB）和ADDB与十二烷基磺酸钠（SDS）的等摩尔比混合体系。该囊泡体系即使在高浓度盐水中也能够自发地形成均相的囊泡溶液。在聚合之前,采用动态激光光散射（DLS）、冷冻蚀刻透射电镜（FF-TEM）技术研究了可聚合囊泡的盐效应。DLS测试发现没有盐存在时,囊泡大小为83 nm,盐的浓度增加到250 mmol/L时,囊泡尺寸增大到250 nm。然而继续增大盐浓度到1000 mmol/L, 囊泡尺寸减小到180nm. FF-TEM结果发现盐浓度小于150 mM时, 单个囊泡为70 nm左右,然而明显存在囊泡的絮凝与融合;当盐浓度增加到400 mM时,单个囊泡尺寸减小到20 nm. 因此DLS 观测到囊泡尺寸增大的原因是由于囊泡的絮凝与融合;而尺寸减小的原因是由于在高盐浓度下,盐屏蔽了带电颗粒之间的静电相互作用,在熵增的驱使下,大囊泡变成小囊泡。     

环糊精囊泡体系的合成与应用

环糊精囊泡体系属于新型的超分子化学体系, 它们具有许多独特的性能和潜在的应用前景. 在查阅大量文献的基础上, 并结合我们相关的科研工作, 综述了它们的合成方法以及其在生物模拟、分子识别、医药工程、新型“智能”材料等领域中的应用, 以飨读者     

Effect of crystallization on tensile mechanical properties of PET foam: Experiment and model prediction

Currently Polyethylene terephthalate (PET) foam is the most promising structural core materials, and the tensile mechanical properties are one of its important application indicators. Herein, environmental-friendly supercritical CO₂ (ScCO₂) extrusion foaming was adopted to prepare PET foam. Aiming at investigating the influence of crystals on the mechanical properties, isothermal treatment in the post-process was used to improve the crystallization process of PET foams. Due to the crystal perfection proceeds via migration and rejection of the structural defects at the crystallites induced by slow crystallization, the crystallinity increased rapidly with the rise of isothermal temperature, especially above the glass transition temperature (T_g). Qualitatively, it can be concluded that the crystalline phase contents have an intimate positive correlation with the tensile modulus, meanwhile, the shape ratio of the crystal have no significant effects on the tensile modulus. In addition, a coupling scheme of aggregate two-layered composite inclusion model and Simone-Gibson equation was first proposed to quantify the mathematical relationship between crystallization and tensile modulus of PET foam, which realized basic agreement.     

Effect of Xanthan Gum on the Performance of Aqueous Film-Forming Foam

Solution properties of aqueous film-forming foam (AFFF) formulations containing different xanthan gum contents were investigated first by varying the mass fraction of xanthan gum in the range of 0.1–0.5%. Foam properties and fire-extinguishing performance of the AFFF formulations were then evaluated. Results indicated that xanthan gum content slightly affected surface tension of foam solutions. However, xanthan gum significantly affected viscosity of AFFF concentrates. Foaming of the AFFF formulations was hardly affected by xanthan gum, but foam stability of the compounds was obviously enhanced with the addition of xanthan gum. Optimal xanthan gum content was determined as 0.3%, which resulted in the shortest 90% control time and fire extinguishment time. Burnback time of foams increased with the addition of xanthan gum because of the enhanced foam stability.     

Breaking and Inhibiting Foam Performance of Modified Silicone Oils in Oil‐Based Systems

Breaking and inhibiting foam performance of silicone oil modified with alkyl and perfluoroalkyl groups in oil‐based system has been studied. Factors related with foam controlling performance, such as surface tension and solubility property, were analyzed.     

A novel foam based separation strategy for extracting minute target impurities

The purpose of this study was to extract impurities from compounds using a simple separatory bottle to purify target compounds with a foam column and allow for the further characterization of impurities. Charged dyes were used as target compounds due to the ease of detection of dyes and isolated impurities. Foaming agents were used in a glass bottle with a modified cap to separate a target impurity using an appropriately charged ligand. By passing N₂ gas through the solution, the surfactants sodium dodecyl sulfate and cetylpyridinium chloride generated foams that separated the dyes, Methylene blue and Orange G, respectively, from a solution containing both dyes. Sodium dodecyl sulfate condensed Methylene blue from the solution with high purity while cetylpyridinium chloride condensed Orange G with less purity. A range of concentrations (0.01–0.5 mmol/L) of dyes were used for separation. The condensability (volume and/or concentration) of the target compound increased as its concentration decreased. This novel separation method is a simple, rapid, inexpensive, and effective way to prepare samples and allows for the characterization of these impurities using sensitive analytical detection techniques.     

十二烷基硫酸钠与甜菜碱在气液和油水界面的复配协同作用研究

研究了十二烷基硫酸钠（SDS）和甜菜碱（Betaine）以及复配体系在油水界面和气液界面的排布行为,探讨了温度、无机盐和复配比例对表面活性剂界面活性和泡沫稳定性的影响,重点探讨了多价无机阳离子对表面活性剂界面吸附行为和复配协同加合增效作用的影响,得到了海水为介质条件下两方面性能均较好的体系,取得的认识为高盐条件下低张力泡沫驱油体系的设计与应用提供理论依据和指导.     

泡沫浮选法分离富集三七中的4种人参皂苷

采用泡沫浮选法对三七提取液中的人参皂苷Rg1、Re、Rb1和Rd进行了分离富集,并用高效液相色谱法分别测定了含量.考察了浮选液浓度、浮选时间、浮选液pH值、氮气流速和电解质NaCl浓度对浮选效率的影响.结果表明:泡沫浮选法对4种皂苷均有较好的分离富集效果,尤其是对人参二醇型皂苷(Rb1,Rd)效果更为明显.当浮选液浓度为2.0 mg/mL,pH值为2～3,氮气流速为20 mL/min,浮选时间10 min,电解质氯化钠浓度0.20 mol/L,泡沫浮选效果最佳.     

Generation of discharges in dynamic foam for oxidants formation using various types of electrodes

An innovatory apparatus for the discharge generation in foaming conditions was constructed. The main goal of the research was to obtain various kinds of oxidants, useful in Advanced Oxidation Processes (AOP) in one compact reactor, potentially even in the treated medium. Such an application of dynamic foam, created without the addition of surfactant has not been investigated as yet. To find the optimum conditions for the efficient foam generation and the discharge development and moreover, to assure the presence of oxidants in sufficient concentrations several electrode materials and electrode set-ups were tested. The experiments were done in the metal plate-to-metal plate, metal plate-to-dielectric plate, needles-to-metal plate and needles-to-dielectric plate electrodes’ set-ups. The discharge gap space ranged from 4 mm in the case of plate-to-plate electrodes to 7 mm in the case of needles-to-plate electrodes. Generally, the highest oxidants’ concentrations at the highest comparable gas flow rate were obtained in the needles-to-dielectric plate arrangement, where 521 and 875 ppm of gaseous ozone, 0.36 and 0.5 mg dm⁻³ of dissolved ozone and 59 and 62 mg dm⁻³ of hydrogen peroxide were obtained at 14 kV of applied voltage and at 5 dm³ min⁻¹ of the substrate gas flow in air and oxygen, respectively. The presence of OH radicals was confirmed by the spectroscopic measurements. The larger gap size was more advantageous from the foam formation point of view and the dielectric layer assured more uniform spatial discharge development between the electrodes.     

Drainage of aqueous film-forming foam stabilized by different foam stabilizers

The present study focuses on the drainage property of aqueous film-forming foam stabilized by different types and concentrations of foam stabilizers. Aqueous film-forming foam (AFFF) formulation concentrates are prepared based on the main components of fluorocarbon surfactant, hydrocarbon surfactant, and organic solvents. Carboxymethylcellulose sodium (CS), xanthan gum (XG), and lauryl alcohol (LA) are selected as foam stabilizers of the AFFF. Surface tension, viscosity, and foamability tests of the AFFF solutions are conducted to evaluate the effect of foam stabilizers on the properties of AFFF solutions. Particularly, an apparatus is established based on the law of connected vessel in order to obtain the instantaneous mass of liquids drained from foams. The drainage features of the AFFFs containing different foam stabilizers are analyzed and compared with each other. The results indicate that AFFF drainage is significantly affected by the type and the concentration of foam stabilizers. The addition of CS and XG to AFFF results in a deceleration of foam drainage, while foam drainage is accelerated by the addition of LA. The variations of surface tension, viscosity, and liquid fraction of foams are the main reasons for the varying foam drainage rate. This study provides a direct connection between chemical components and fundamental properties of AFFF.     

High Performance Oxide Functionalized Nitrogen‐Doped Mesocellular Carbon Foam for Biosensor Construction

Nitrogen‐doped mesocellular carbon foam (denoted as MCF? CN_x) with high surface area and large pore volume was prepared and characterized in detail. The MCF? CN_x was further functionalized by oxidation with HNO₃ (denoted as MCF? CN_x‐O) in order to effectively improve its hydrophilicity and biocompatibility. Both MCF? CN_x and MCF? CN_x‐O were used for immobilization of Hb and design of electrochemical biosensors. The activity of Hb immobilized on MCF? CN_x‐O is two times higher than that of Hb immobilized on MCF? CN_x. The Hb‐MCF? CN_x‐O‐Nafion modified electrode displays fast response, high sensitivity and low detection limit to the detection of hydrogen peroxide. The sensitivity of Hb‐MCF? CN_x‐O‐Nafion modified electrode (477 μA mM^?1 cm^?2) is twice that of Hb‐MCF? CN_x‐Nafion modified electrode.     

The Acoustics of Liquid Foams

Beside other transport properties of liquid foams, like the optical or electrical ones, the acoustics of liquid foams reveals a great complexity and non-trivial features. Here we present a review of recent experimental and theoretical results on how a sound wave interacts with either a macroscopic foam sample or with its isolated building blocks (films and Plateau borders). The analysis of the literature allows us to determine what is now well understood, what could be measured in foams by acoustics, and what are the remaining issues and perspectives in this research field.