溶胶-凝胶法制备光固化聚氨酯丙烯酸酯杂化材料的研究

以溶胶-凝肢法制备的硅溶胶为无机相,聚氨酯丙烯酸酯为有机相,以γ-甲基丙烽酰氧丙基三甲氧基硅烷(TMSPM)为两相间的偶联剂,制得了光固化杂化材料。研究了未固化的杂化体系的稳定性问题,并对其进行了结构表征和性能研究。无机相与有机相通过共价键相连。使得杂化体系光固化膜高硬度的获得并没有以柔韧性的损失为代价。在无机物含量较低时,聚氨酯丙烯酸酯／二氧化硅杂化体系先固化膜的耐磨性略有提高。     

基于改性亚麻仁油的有机/无机光固化膜的光固化机理及其反应性研究

用亚麻仁油和环戊二烯合成了改性亚麻仁油(NLO)光固化低聚物,其结构用红外光谱(FT-IR)进行了表征.基于改性亚麻仁油、巯基硅氧烷和光引发剂制备了有机/无机杂化光固化膜,对其光固化机理进行了分析,对无机粒子在改性亚麻仁油中的分布用AFM(原子力显微镜)进行了观测,建立了该有机/无机杂化体系的光固化模型.对杂化膜光固化反应性用Photo-差示扫描热分析仪(Photo-Differential Scanning Calorimeter)进行了测试,Photo-DSC测试结果表明:巯基硅氧烷能大大提高改性亚麻仁油体系光固化速率,环烯键对硫醇十分敏感.     

ZrO2纳米粒子原位杂化PVDF膜的制备及其抗污染性能

针对传统聚合物膜抗污染性差的问题,本文从杂化膜结构设计出发,提出将ZrO2纳米粒子的原位制备和聚偏氟乙烯(PVDF)相转化成膜过程有机结合的制膜新方法.该方法将阴离子交换树脂引入到N,N-二甲基甲酰胺(DMF)中,以氧氯化锆为原料,利用阴离子交换树脂提供的―OH与无机盐的阴离子进行交换,得到ZrO2纳米粒子均匀分散的N,N-二甲基甲酰胺溶胶体系.随后将PVDF聚合物溶解到所得的N,N-二甲基甲酰胺溶胶体系中,获得均一、透明的铸膜液.利用X射线光电子能谱(XPS)和透射电子显微镜(TEM)对杂化膜中锆的存在状态和分散性能进行了表征.结果表明,ZrO2纳米粒子均匀分散在PVDF基体中,并且形成的纳米粒子的粒径约为10-20 nm.通过粘度、分相速度和膜形态的测定,研究了成膜机理.结果表明,ZrO2纳米粒子的引入加速了铸膜液成膜过程的分相速度.杂化膜的亲水性能通过接触角测定仪进行了评价.并选择以牛血清蛋白为代表模拟污染物,考察了杂化超滤膜的抗污染性能.结果表明,原位形成的ZrO2纳米粒子显著提高了膜的亲水性,减少了膜对蛋白质的吸附.这种将ZrO2纳米粒子的原位制备和PVDF相转化成膜过程有机结合的制膜新方法在有机-无机杂化膜的制备领域具有显著意义.     

聚甲基丙烯酸丁酯/(SiO2-TiO2)杂化材料的研究

以γ-甲基丙烯酰氧丙基三甲氧基硅烷(TMSPM)为偶联剂，用溶胶一凝胶法制备了聚甲基丙烯酸丁酯／(SiO2-TiO2)杂化材料，进行了结构表征和性能研究。经电镜观察，杂化体系固化膜两相间结合紧密，无机相是一种粒径介于10～20nm之间的球形颗粒。实验结果表明：杂化体系固化膜均匀性好和热氧化稳定性得到很大提高。由于无机相与有机相通过共价键相连，聚甲基丙烯酸丁酯／(SiO2-TiO2)杂化材料在无机物含量较高时，仍能保持良好的柔韧性。     

光固化环氧丙烯酸酯有机-无机杂化体系

二氧化硅杂化体系;溶胶-凝胶法;光固化环氧丙烯酸酯有机-无机杂化体系     

基于倍半硅氧烷的有机-无机杂化材料研究

有机-无机杂化材料兼具有机材料和无机材料的优点,是继单组份材料、复合材料和梯度材料之后的新一代功能材料。基于可以通过分子设计与剪裁的倍半硅氧烷(笼型倍半硅氧烷和无规倍半硅氧烷)无机前驱体,利用多种方法如反应性共混法、溶胶-凝胶法、光固化、原子转移自由基聚合、自组装技术等制备一系列高性能聚合物/倍半硅氧烷有机-无机纳米杂化材料。     

高折射率有机/无机纳米杂化透明膜层材料的制备与性质研究

采用溶胶-凝胶法,将钛酸酯和硅烷偶联剂(KH-560)进行共水解,经涂膜、固化,制备了一系列含有无机二氧化钛纳米相的无机/有机杂化膜层材料,通过不同方法对杂化膜层的微结构、光学、机械和热性质进行了表征.结果表明,所得到的有机/无机纳米复合膜层,在可见光范围内的透过率均在90%以上,同时具有较好的耐热性和较高的折射率(nd=1.47~1.73),并且膜层与基材的附着性好,铅笔硬度达到4~5H.     

可聚合纳米无机氧化物杂化材料的制备及其在紫外光固化涂料中的应用

可聚合纳米无机氧化物杂化材料在紫外光固化涂料中具有较好的分散性能.与涂料中的单体和预聚物进行光聚合形成有机/无机杂化网络结构的聚合物,从而提高涂料固化膜的热稳定性能、硬度和耐磨性能等,在紫外光固化涂料的制备方面有着广阔的应用前景.目前,该类杂化材料主要采用硅烷偶联剂改性、化学接枝改性和溶胶一凝胶方法制备.本文就可聚合纳...     

F127反相微乳液中纳米AgCl粒子的可控合成和AgCl/F127-PMMA有机/无机杂化膜的研究

在大分子F127为表面活性剂的反相微乳液体系中,合成AgCl纳米粒子。然后通过聚合制备AgCl/F127-PMMA有机/无机杂化膜,用于苯/环己烷混合物的渗透汽化分离。利用电导率仪、紫外可见光谱及透射电镜研究微乳液的增溶水量(ω)对微乳液结构、胶束中AgCl粒子的生成和形貌的影响。结果表明:合成的AgCl粒子粒径小于10 nm;增加微乳液的ω,生成的AgCl粒子变大。聚合后制备的AgCl/F127-PMMA有机/无机杂化膜中,AgCl粒子能保持较好的分散性。50wt%苯/环己烷混合物的渗透汽化结果表明,在合适的ω下,所制备的AgCl/F127-PMMA有机/无机杂化膜能克服常规高分子膜的trade-off现象,表现出较好的分离性能。     

溶胶-凝胶法制备硅系有机-无机杂化分离膜

以α-Al₂O₃多孔陶瓷片为载体,用溶胶-凝胶法制备有机-无机杂化分离膜.通过考察前驱物的组成及杂化溶胶的合成条件对制膜工艺过程的影响,得到了制备有机-无机杂化分离膜的各种适宜性参数.红外光谱(FTIR)分析结果表明,杂化溶胶的性能不仅决定分离膜的性能,而且对膜热处理过程中的龟裂有很大影响.膜层的厚度为1～2μm;在膜两侧压差为0.10MPa、n(PTMOS)/n(TEOS)=1.16时,膜对O₂/N₂,CO₂/N₂和CO₂/O₂的分离因子分别为2.30,4.31和1.17,渗透系数为75.81×10^-17,75.28×10^-17和72.78×10^-17m₃(STP)·m/(m₂·s·Pa).     

盐酸含量对光固化聚氨酯丙烯酸酯/SiO2杂化材料结构和性能的影响

由正硅酸乙酯水解制得的SiO2溶胶，在以γ—甲基丙烯酰氧丙基三甲氧基硅烷(TMSPM)为偶联剂的体系中，经溶胶-凝胶法制备了透明的光固化聚氨酯丙烯酸酯杂化材料[(PUA—TMSPM)／SiO2]。研究了盐酸浓度对(PUA-TMSPM)／SiO2结构与性能的影响。结果表明：随着pH值减小，硅溶胶体系和(PUA-TM-SPM)／SiO2杂化体系的热稳定性增大；盐酸摩尔分数XHCl的增加使(PUA-TMSPM)／SiO2光固化膜表面的两相界面结合更紧密，涂层变得更致密，并导致膜的硬度和耐磨性提高。     

Effect of preparation of titania sol on the structure and properties of acrylic resin/titania hybrid materials

Acrylic resin/titania organic–inorganic hybrid materials were prepared by mixing titania sol produced by the sol–gel process with synthesized thermoplastic acrylic resins. The effects of the amounts of water and acid on hydrolysis and condensation of the sol–gel precursor (titanium n‐butoxide) were characterized by nuclear magnetic resonance, and their corresponding influences on the structure and properties of the hybrid films were investigated by small‐angle X‐ray scattering (SAXS), atomic force microscopy, dynamical mechanical analysis, an Instron testing machine, and ultraviolet–visible spectroscopy. SAXS indicated an open structure and nanoscale size for the titania phase of the hybrids. Higher titania content and a greater amount of water or acid in the sol–gel process resulted in titania domains that were larger size and had a more compact structure. The mechanical and UV‐shielding properties of the organic polymer obviously were improved with titania embedded. As the amount of water or acid in the sol–gel process increased, integrative mechanical properties decreased, with the amount of water having a greater impact than the amount of acid on the structure and optical properties. © 2004 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 42: 3682–3694, 2004     

Synthesis, characterization and flame retardant of UV-curable hybrid coatings containing SiO2–P2O5–B2O3 via sol–gel method

A ternary sol containing silicon, phosphorus and boron modified by ??-methacryloxypropyltrimethoxysilane was synthesized by sol?Cgel method. The ternary sol was incorporated into the organic matrix and UV-curable organic/inorganic hybrid coating materials were obtained. Hardness, transmittance, haze, cross-cut adhesion and abrasion resistance results showed that the mechanical properties of the hybrid coatings improved effectively with no comprising on optical properties by increasing sol content. Scanning electron microscopy and Energy Dispersive X-ray spectrometer studies indicated that inorganic particles were homogenously dispersed in the organic matrix. The flame retardancy of the UV-curable coatings was investigated by thermogravimetric analysis and microscale combustion calorimeter. The results showed that the incorporation of sol into the organic network led to an improvement in the thermal stability and flame retardancy of the hybrid coating materials. It is a desirable achievement to improve simultaneously both flame retardancy and mechanical properties of the coatings.     

Microstructure and Properties of Triethoxysilylpropylamine-Capped Polyurethane/Titania Hybrid Films

Triethoxysilylpropylamine-capped waterborne polyurethane/titania hybrid films were prepared by in situ method via sol-gel process of titanium n-butoxide under acidic condition. In the paper, we studied the effect of the contents of titania sol on the microstructure, mechanical property, water resistance, and optical property of the hybrid films. It was found, with introducing the content of titania, some physical properties such as tensile strength, modulus, water resistance, refractive index, heat resistance, and ultraviolet absorbance will increase. SEM and SAXS study suggested that the hybrid films had good planarization.     

Trialkoxysilane‐capped acrylic resin/titania organic–inorganic hybrid optical films prepared by the sol–gel process

Homogeneous organic–inorganic hybrid materials with excellent thermal and optical performance were successfully prepared via the mixing of (3‐methacryloxypropyl)trimethoxysilane‐capped acrylic resin with titania synthesized by sol–gel approaches. The effects of the titania content, amount of water, and pH in the sol–gel and the ratio of the solvents (butyl acetate and ethanol) on the structures and properties of the hybrid materials were studied. More titania, more water, and base catalysis in the sol–gel process and a higher ratio of butyl acetate to ethanol for the hybrids led to a larger size and a more compact structure of the titania phase. Increasing the titania content dramatically improved the glass‐transition temperature, UV‐shielding properties, and refractive index for the hybrid materials, and it did not reduce their optical transparency. In general, better thermal stability and optical properties were achieved for the hybrid materials prepared with less water, lower pH values (e.g., acidic or neutral conditions), and a lower ratio of butyl acetate to ethanol. © 2005 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 43: 637–649, 2005     

聚合物泡孔材料为模板的溶胶－凝胶法制备大孔结构二氧化钛陶瓷

Macroporous titania monoliths were prepared via sol-gel method using polymer foam as templates.The poly-mer foam polymerized via concentrated emulsion polymerization was immerged in a solution of titanium(IV)iso-propoxide in 2-propanol,which underwent a sol-gel process.The organic components were subsequently removedby calcination.The effects of various parameters,including the nature of the monomer,the volume fraction of dis-persed phase of the concentrated emulsion,and concentration of the sol-gel solution were investigated.The SEMmicrographs of the macroporous titania monoliths thus obtained showed that the porous structure of the final mate-rial was effectively controllable.     

Preparation and colloidal dispersion behaviors of silica sol doped with organic pigment

Silica sol doped with organic pigment was prepared by hydrolyzing tetraethoxysilane with a basic catalyst via dispersing pigment in silica sol. The colloidal properties of SiO₂/pigment hybrid sol and its deposited film were investigated. The presence of pigment in SiO₂/pigment hybrid sol affects the Zeta potential, particle size and surface tension compared to the silica sol without pigment. The SiO₂/pigment hybrid sol exhibited good dispersion stability in the centrifuge process. The maximum absorption wavelength was consistent with that of the pigment disperse solution, indicating that the pigment in SiO₂/pigment hybrid sol remained unchanged. Thermogravimetric analysis of the contents of organic component in silica sol and SiO₂/pigment hybrid sol were conducted, and the differential value was ascribed to the weight of the pigment and the condensate of polyoxyethylene octylphenol ether (OP-10) and γ-Glycidoxypropyltrimethoxysilane (KH-560). The surface topography of SiO₂/pigment hybrid silica film was characterized by AFM. The analysis of silica sol doped with organic pigment provides useful information for an effective pathway to disperse pigment on fiber and other substrates.     

有机生色团/SiO_2-TiO_2二阶非线性光学杂化材料的研究

以分散橙－3（DO－3）与γ－缩水甘油氧与基三甲氧基硅烷（KH－560）反应 得到的功能性生色团ASD为前体，采用溶胶－凝胶（sol-gel）法使ASD与钛酸四正 丁酯在酸性条件下共水解缩合，合成了新型稳定的有机生色团/SiO_2-TiO_2杂化溶 胶，并对该溶胶体系的相图进行了研究。利用傅立叶红外（FTIR）、透射电镜（ TEM）和X射线能量色散谱仪（EDS）研究了杂化溶胶形成过程中的络合机理及溶胶 形态。由一维刚性取向气体模型计算杂化材料膜的二阶非线性光学（NLO）系数X~ (2) is 1.43 * 10~(-7) esu。差示扫描量热法（DSC）测得杂化材料的玻璃化温度 可达196 ℃；用紫外－可见光谱对杂化膜在极化前后的取向及取向稳定性进行了研 究。