TiO_2/PtO-Pt复合膜和SnO_2/PtO-Pt复合膜氢敏性能的研究

将PtO Pt纳米粒子膜与TiO2 ,SnO2 纳米粒子膜复合 ,利用PtO Pt纳米粒子膜作为插入电极和催化剂 ,设计并研制出一类新型双层结构复合膜气体传感器 .采用TEM和SEM对薄膜的显微结构进行了表征 .对空气中 4 0 %H2 的氢敏性能研究表明 :2 0 0℃时 ,TiO2 /PtO Pt复合膜对氢气的灵敏度为 70 % ,而TiO2 纳米粒子膜无响应 .10 0℃时 ,SnO2 /PtO Pt复合膜的灵敏度为 92 % ,同样条件下 ,SnO2 纳米粒子膜的灵敏度仅为 4% .说明PtO Pt纳米粒子膜的催化作用能够显著提高TiO2 和SnO2 膜的氢敏性能 .另外 ,TiO2 /PtO Pt复合膜和SnO2 /PtO Pt复合膜均对空气中H2 有很高的选择性     

硅倍半氧烷改性聚酰亚胺(PI/Si)复合膜性能简

通过在聚酰亚胺(PI)中分别添加笼型八氨基苯基硅倍半氧烷(OAPS)、笼型八苯基硅倍半氧烷(OPS)、梯形聚苯基硅倍半氧烷(PPSQ)和无机纳米SiO2,制备了4种含硅聚酰亚胺(PI/Si)复合膜. 对PI/Si复合膜的相容性、力学性能、热性能和阻燃性能进行了研究. 结果表明,OAPS与PI间展现出较好的相容性,PPSQ次之,而OPS,SiO2与PI的相容性较差;但相容性与复合膜的力学和热性能无明显的对应关系. SiO2可提高PI的力学性能;PI/OAPS复合膜的Tg最高;OAPS,PPSQ或SiO2的加入使PI复合膜的热稳定性稍有提高,而少量OPS的加入大大降低PI膜的热稳定性. 这类PI/Si复合膜的显著特点是能够大幅提高PI膜的极限氧指数,含硅化合物能够增加PI燃烧后残炭量,使残炭的形貌得到显著改善. PI/Si复合膜在燃烧过程中在表面形成一层白色含硅包裹层,起到隔热隔氧及保护内层有机物不被燃烧的作用. 硅倍半氧烷对炭层形貌的改善显著,展现出比SiO2更好的阻燃性能.     

壳聚糖/明胶/TiO2三元复合膜的制备与功能特性

纳米TiO2用阴离子表面改性剂SDS改性后,以溶液共混法制备了壳聚糖／明胶/TiO2复合膜,用FTIR、XRD、SEM、TEM表征了其结构与形态,并测试了其吸水率、透光率、力学性能和抑菌性能。进而探讨了复合膜中明胶和纳米TiO2含量对壳聚糖膜性能的影响。结果表明：复合膜中,壳聚糖、明胶和TiO2微粒间存在强烈的氢键相互作用,从而使明胶与壳聚糖具有良好的相容性,TiO2与壳聚糖、明胶分子间有很好的界面作用。适量TiO2的加入,可使壳聚糖／明胶共混膜的力学性能得到改善,明胶质量分数为0．30时,掺杂wTiO2为0．01、0．02的复合膜较壳聚糖／明胶共混膜的湿强及干态韧性分别提高了55．9％,40．8％和49．7％,47．9％。此外,复合膜的抑菌性能随明胶的增加而降低,但随TiO2的掺杂比的增加而增强,纳米TiO2的引入拓宽了壳聚糖和明胶两种天然高分子材料的应用范围。     

TiO2/PtO-Pt复合膜和SnO2/PtO-Pt复合膜氢敏性能的研究

将PtO-Pt纳米粒子膜与TiO2，SnO2纳米粒子膜复合，利用PtO-Pt纳米粒子膜作 为插入电极和催化剂，设计并研制出一类新型双层结构复合膜气体传感器。采用 TEM和SEM对薄膜的显微结构进行了表征，对空气中4.0H2的氢敏性能研究表明： 200℃时，TiO2/PtO-Pt复合膜对氢气的灵敏度为70％，而TiO2纳米粒子膜无响应。 100℃时，SnO2/PtO-Pt复合膜的灵敏度为92％，同样条件下，SnO2纳米粒子膜的灵 敏度仅为4％。说明PtO-Pt纳米粒子膜的催化作用能够显著提高TiO2和SnO2的膜氢 敏性能。另外，TiO2/PtO-Pt复合膜和SnO2/PtO-Pt复合膜均对空气中H2有很高的选 择性。     

硅橡胶/蒙脱土复合材料的制备、结构与性能

用溶液法和熔融法制备了硅橡胶／蒙脱土复合材料，测定了力学性能、耐热性、耐溶剂性等性能．并与通常采用的２＃气相法白碳黑填充补强硅橡胶的性能作了对比．实验表明，溶液法能使蒙脱土更好地分散在硅橡胶基体中，所得到的复合物的性能有了很大的提高，与２＃气相法白碳黑填充补强的硅橡胶性能相当．     

含氟聚合物修饰碳纳米管及其聚氨酯复合疏水膜的研究

利用羟基碳纳米管上的羟基与2-溴异丁基酰溴之间的简单反应, 在碳纳米管上引入了含溴ATRP引发剂, 并进一步引发含氟丙烯酸酯的ATRP聚合, 从而在碳纳米管表面接枝上了低表面能的含氟聚合物. 红外光谱(FT-IR)、热重分析(TGA)和透射电镜(TEM)的研究结果表明碳纳米管与含氟聚合物之间为化学键连接. 以此低表面能聚合物包裹的碳纳米管作为填充粒子, 采用溶液浇铸方法制备了聚氨酯/碳纳米管复合膜, 并利用溶剂四氢呋喃(THF)刻蚀表面获得了不同碳纳米管裸露程度的复合膜材料. 静态接触角测试结果表明, 无论是羟基碳纳米管还是低表面能修饰的碳纳米管均可提高其复合膜的疏水性能, 且其疏水性能随碳纳米管含量的增加而增加; 相同含量时, 含氟聚合物接枝后的碳纳米管使复合膜具有更佳的疏水性能, 膜表面经溶剂刻蚀后可显著提高其疏水性能. 采用扫描电子显微镜(SEM)研究了加入碳纳米管和溶剂刻蚀对聚合物表面微观结构以及材料表面疏水性能的影响. 上述结果表明: 利用接枝聚合物可改变碳纳米管本身的疏水性能, 并可进一步制备新型的具有表面疏水性能的聚合物纳米复合材料.     

柞蚕丝素／纳米TiO2复合膜的制备及其结构表征

为了获得良好性能的柞蚕丝素复合膜,本文采用复合法制备了不同配比柞蚕丝素/纳米TiO2复合膜,并与纯的丝素膜作了比较,用SEM、DSC、TG和IR进行了表征.SEM测试表明在分散剂聚乙烯醇作用下,适量的纳米TiO2能均匀分散丝素溶液中.DSC测试表明复合膜b、c和d的Tm均高于纯的柞蚕丝素膜a的Tm,然而随着纳米TiO2加入量的继续增加,对应复合膜的Tm有所降低.TG结果表明,随着纳米TiO2加入量的增加,复合膜的热稳定性得到提高.IR测试表明丝素复合膜的结晶结构从Silk I向SilkII转化.     

聚硅氧烷/钛溶胶光催化复合膜的制备与表征

在锐钛型钛溶胶颗粒或粉体TiO2存在下,进行端乙烯基硅油与含氢硅油的原位硅氢加成反应,制得聚硅氧烷/TiO2复合膜,实现TiO2在立体交联膜中的分散及与聚硅氧烷基体的有效复合.通过红外分析、电镜观察、拉伸实验和紫外-可见光透过测试,对聚硅氧烷的组成和交联结构、复合膜的形态结构及其拉伸和光学性能进行表征和分析.发现原料硅油的扩链处理和SiO2的补强作用有助于提高反应的过程稳定性及复合膜的拉伸性能.亲水性的粉体TiO2在成膜过程中易发生进一步的大规模团聚,这在膜表面构筑微纳结构的同时会劣化膜材的力学、光学性能.溶胶-凝胶法自制钛溶胶颗粒表面残留有部分未脱除的有机基团,这使其具有一定的亲油性和较好的有机相容性,因而钛溶胶颗粒可在有机介质和聚硅氧烷膜中达到初级粒子形式的均匀稳定分散.上述形态结构,可使相应复合膜具有更佳的拉伸性能和紫外屏蔽/可见光透过性能,并有望在保持复合膜高耐老化性的同时具有高效的光催化性能.     

熔体插层制备尼龙6/蒙脱土纳米复合材料的性能表征

通过熔体插层成功地制备了尼龙６／蒙脱土纳米复合材料，测试了力学性能、耐热性能和耐溶剂性．通过ＴＥＭ、ＷＡＸＤ、ＤＳＣ等手段，研究了结构与结晶行为，并与插层聚合的尼龙６／蒙脱土纳米复合材料进行了对比．实验表明通过熔体插层可使尼龙６基体插层于蒙脱土中，所得到的复合物的性能较尼龙６有很大提高，且与插层聚合的尼龙６／蒙脱土纳米复合材料的性能相当．     

硅倍半氧烷改性聚酰亚胺(PI/Si)复合膜性能

通过在聚酰亚胺(PI)中分别添加笼型八氨基苯基硅倍半氧烷(OAPS)、 笼型八苯基硅倍半氧烷(OPS)、 梯形聚苯基硅倍半氧烷(PPSQ)和无机纳米SiO₂, 制备了4种含硅聚酰亚胺(PI/Si)复合膜. 对PI/Si复合膜的相容性、 力学性能、 热性能和阻燃性能进行了研究. 结果表明, OAPS与PI间展现出较好的相容性, PPSQ次之, 而OPS, SiO₂与PI的相容性较差; 但相容性与复合膜的力学和热性能无明显的对应关系. SiO₂可提高PI的力学性能; PI/OAPS复合膜的T_g最高; OAPS, PPSQ或SiO₂的加入使PI复合膜的热稳定性稍有提高, 而少量OPS的加入大大降低PI膜的热稳定性. 这类PI/Si复合膜的显著特点是能够大幅提高PI膜的极限氧指数, 含硅化合物能够增加PI燃烧后残炭量, 使残炭的形貌得到显著改善. PI/Si复合膜在燃烧过程中在表面形成一层白色含硅包裹层, 起到隔热隔氧及保护内层有机物不被燃烧的作用. 硅倍半氧烷对炭层形貌的改善显著, 展现出比SiO₂更好的阻燃性能.     

聚对苯撑乙烯类共聚物/TiO2复合材料光物理性能的研究

两种经过化学修饰的PPV(聚对苯撑乙烯)类共轭高分子共聚物分别与纳米TiO₂复合,作为有机/无机复合材料进行研究.这两种共聚物在乙醇、二氯甲烷溶液中分别与以Sol-Gel法、反胶束法制得的TiO₂共混得到均匀分散的体系而不出现相分离.用共聚物与TiO₂的复合液可以在石英基底上制成均匀的复合膜.结果表明,高聚物/TiO₂复合物的光物理特性与单纯的高聚物相比呈现明显的差异;不同粒径的纳米TiO₂对复合物性能的影响不同;中间苯环的取代基对共聚物的性质影响明显.共轭高分子与纳米TiO₂复合涂膜后其发光性能明显改善,有作为发光器件的应用前景.     

量子顺电体La1/2Na1/2TiO3纳米晶的制备与谱学表征

用改进硬脂酸溶胶-凝胶法制备了量子顺电体La_1/2Na_1/2TiO₃纳米晶,用差热-热重分析和X射线衍射测试了样品的晶化过程及物相结构,用FTIR和Raman光谱表征了其谱学特性.     

Synthesis of nano-sized TiO(2)/poly(AA-co-MMA) composites by heterocoagulation and blending with PET

Nano-sized TiO(2) or SiO(2)/TiO(2) particles were prepared by hydrolysis and condensation reactions in aqueous media, followed by mixing with poly(AA-co-MMA) latex to form different composites, then blending with poly(ethylene terephthalate), PET. The TGA results of composites indicated that negative charged latexes had greater interaction with TiO(2)/ or SiO(2)/TiO(2) particles through strong electrostatic forces, while cationic latexes incorporated with TiO(2) or SiO(2)/TiO(2) particles by pH induced coagulation, carbonyl group chelation and hydrogen bonding. The soapless latex polymer particles showed lower ability of adsorption to TiO(2) particles due to the decrease of total surface area of these larger particles. If SiO(2)/TiO(2) particles were used instead of TiO(2) particles, unexpected high adsorption result was observed. Morphology results observed by SEM showed that PET blended with positive charged composites was more homogeneous than PET blended with negative charged composites. DSC results also indicated that the T(g) of PET was increased, melting temperatures (T(m) or T(m)(')) were increased, and the temperature range of crystallization was narrowed after blending with the composites. The presence of composites affected the mobility and packing of PET molecular chains therefore changing the thermal properties of PET.     

二维水滑石纳米片对氧化铝/聚酰亚胺复合薄膜耐电晕性能的影响

将二维层状材料水滑石剥离为二维纳米片分散液,向其中加入纳米氧化铝,并进行聚酰亚胺(PI)的原位聚合,构筑PI/水滑石纳米片/氧化铝纳米粒子三元复合薄膜。 结果表明,在PI薄膜中同时加入质量分数为10%氧化铝和2%水滑石纳米片,比仅加入质量分数为10%氧化铝时的耐电晕时间(180 min)提高了12倍,拉伸强度提高了37.8%。 聚合物中同时加入纳米片、纳米粒子两种不同形貌填料,能够同时提升复合材料的耐电晕性能和机械性能。     

Atomic layer deposition in nanometer-level replication of cellulosic substances and preparation of photocatalytic TiO2/cellulose composites

TiO2 replicas of filter paper with nanometer-level accuracy were prepared by atomic layer deposition of thin conformal TiO2 coating, followed by a removal of the paper by air-anneal at 450 degrees C. Photocatalytic anatase TiO2/cellulose composites were also made by leaving the paper intact. The TiO2 films were deposited from Ti(OMe)4 and H2O at 150-250 degrees C. The photocatalytic activity of the TiO2/cellulose composite was verified by photocatalytic reduction of Ag(I) from an aqueous solution to Ag nanoparticles on the TiO2 surface. The TiO2/cellulose composites are mechanically more stable than the free-standing TiO2 replicas and are therefore potentially suitable as lightweight, high surface area photocatalysts.     

Influences of Plasma Treatment and 60Co γ-Ray Radiation on the Over-Voltage Positive Temperature Coefficient of High Density Polyethylene/Carbon Black Nano Composites

Argon plasma-pretreated high-density polyethylene (PHDPE) was blended with the conductive nano carbon black (CB) and inorganic flame retardant (magnesium hydroxide, Mg(OH)₂) was added. Influences of the CB content, plasma treatment time, plasma treatment power, and dosage of ⁶⁰Co γ-ray radiation on positive temperature coefficient (PTC) behaviors of composite were studied. In addition, the over-voltage resistance behavior of the composites was also investigated. The free radical of PHDPE was measured by 1,1-diphenyl-2-picryhydrazyl (DPPH) method. The gel contents of composite were measured by solvent extraction method. The results showed that the room-temperature volume resistivity and PTC effect of composite were improved significantly with plasma treatment. The PHDPE composite with ⁶⁰Co γ-ray radiation eliminated the negative temperature coefficient (NTC) effect in the composites effectively, and the PTC intensity of composite was increased. With increasing of radiation dosage from 20 Mrads to 80 Mrads, the gel content of composites increased up to 83.84% and the response temperature of composites shifted to low temperature (127.5 °C to 114.8 °C). In this work, the composites also successfully passed the over-voltage resistance test, and possessed good reproducibility.     

Fabrication of Porous Polyimide Membrane with Through-Hole via Multiple Solvent Displacement Method

Porous polyimide (PI) membranes are widely used in separation processes because of their excellent thermal and mechanical properties. However, the applications of porous PI membranes are limited in the nanofiltration range. In this study, porous PI membranes with through-holes have been successfully fabricated by the novel multiple solvent displacement method. This new method requires only a porous polyamic acid (PAA) membrane, which was prepared by immersing PAA film in N-methylpyrrolidoneebk; (NMP) prior to immersing it in a mixed solvent consisting of NMP and a poor solvent, followed by immersion only in poor solvent. The pore size, morphology, porosity, and air permeability demonstrated that the fabricated PI membranes had a uniformly porous structure with through-holes over their surface. This new method enabled control of pore size (3–11 μm) by selecting a suitable poor solvent. This multiple solvent displacement method is highly versatile and promising for the fabrication of porous PI membranes.     

溶胶凝胶法合成聚酰亚胺二氧化钛杂化膜

溶胶凝胶法制备了负载型聚酰亚胺 二氧化钛杂化膜 ,采用扫描电镜、红外光谱、TG DTA、压汞法和气体渗透性能测试装置对膜材料的表面形貌、表面结构、热性能、孔径分布和气体渗透性能进行了表征 .结果表明 ,杂化膜材料形成了有机相包裹无机相的交联结构 ;聚酰亚胺与二氧化钛粒子形成了新型键联结构 ;其热分解温度随二氧化钛含量的增加而降低 ,在 4 5 0℃以下热稳定性优于聚酰亚胺膜材料 ;平均孔径随二氧化钛含量增大而增大 ,孔径分布趋于弥散 ;N2 、H2 和CO2 在膜内渗透由Knudsen扩散控制 ,H2 O N2 分离因子均大于Knudsen扩散值 ,表现出良好的亲水性 .     

Effect of nano/micro‐mixed ceramic fillers on the dielectric and thermal properties of epoxy polymer composites

Nano/micro ceramic‐filled epoxy composite materials have been processed with various percentage additions of SiO₂, Al₂O₃ ceramic fillers as reinforcements selected from the nano and micro origin sources. Different types of filler combinations, viz. only nano, only micro, nano/micro, and micro/micro particles, were designed to investigate their influence on the thermal expansion, thermal conductivity, and dielectric properties of epoxy polymers. Thermal expansion studies were conducted using thermomechanical analysis that revealed a two‐step expansion pattern consecutively before and after vitreous transition temperatures. The presence of micro fillers have shown vitreous transition temperature in the range 70–80°C compared with that of nano structured composites in which the same was observed as ~90°C. Similarly, the bulk thermal conductivity is found to increase with increasing percentage of micron‐size Al₂O₃. It was established that the addition of micro fillers lead to epoxy composite materials that exhibited lower thermal expansion and higher thermal conductivity compared with nano fillers. Moreover, nano fillers have a significantly decisive role in having low bulk dielectric permittivity. In this study, epoxy composites with a thermal expansion coefficient of 2.5 × 10^?5/K, thermal conductivity of 1.18 W/m · K and dielectric permittivity in the range 4–5 at 1 kHz have been obtained. The study confirms that although the micro fillers seem to exhibit good thermal conductivity and low expansion coefficient, the nano‐size ceramic fillers are candidate as cofillers for low dielectric permittivity. However, a suitable proportion of nano/micro‐mixed fillers is necessary for achieving epoxy composites with promising thermal conductivity, controlled coefficient of thermal expansion and dielectric permittivity. Copyright © 2013 John Wiley & Sons, Ltd.     

在位分散聚合聚甲基丙烯酸甲酯/二氧化硅纳米复合材料研究

应用在位分散聚合方法制备了分散相粒径介于１３０ｎｍ左右的聚甲基丙烯酸甲酯／二氧化硅ＰＭＭＡ／ＳｉＯ２纳米复合材料，并利用ＳＥＭ，ＤＭＡ，ＴＧＡ等手段研究了该体系的性能．结果表明，经表面处理的ＳｉＯ２无机填料在复合材料基体中分散均匀，界面粘结好．ＳｉＯ２填充粒子的用量对基体的热稳定性，动态力学行为，光学行为以及拉伸强度，弹性模量，断裂伸长率等力学性能都有较大影响