笼形低聚倍半硅氧烷/聚酰亚胺杂化薄膜的合成、热性能及低温力学性能研究（英文）

通过掺杂不同质量分数的八缩水甘油醚基笼形低聚倍半硅氧烷(G-POSS),以溶胶凝胶法制备得到一种新型聚酰亚胺(PI)杂化薄膜.通过红外反射光谱(DRIFT-IR)、扫描电子显微镜(SEM)表征了其结构与薄膜断面形貌,以热重(TG)和机械性能分析研究了薄膜的耐热性与常温和低温(77K)下的力学性能.结果表明,在掺杂量低于5%时,该杂化薄膜耐热性保持稳定,同时在常温和低温下都表现出优于纯PI膜的拉伸强度,其中在G-POSS掺杂量为3%时,杂化薄膜的拉伸强度为239.38MPa(77K),比纯PI膜提升了17%.这是由于在低温条件下,聚合物分子链被冻结,G-POSS粒子与PI基底间的排列更加紧密,同时界面作用力更大.     

石墨烯-聚酰亚胺复合薄膜的制备及性能表征

首先制备可均匀分散于N,N’-二甲基甲酰胺(DMF)中的氧化石墨烯片(GO),将GO的DMF分散液与聚酰胺酸(PAA)的DMF溶液进行液相共混,然后流延成膜制得GO-PAA复合薄膜,最后将PAA进行热酰亚胺化处理,在此过程中GO被原位还原为石墨烯(GS),从而获得石墨烯-聚酰亚胺(GS-PI)复合薄膜.将具有不同石墨烯含量的复合薄膜样品分别进行热重分析及力学和电学性能测试.结果表明,随着GS含量的增加GS-PI复合薄膜的表面电阻率逐渐降低.使用1.0 wt%的GO制备的GS-PI复合薄膜的表面电阻率降至106Ω,此后趋于稳定.在GO不高于0.6 wt%的用量下制备的复合薄膜的拉伸强度和断裂伸长率可发生同步增加;至GO用量为0.6 wt%二者的增强都达到最高值.此后继续增加GS含量,拉伸模量持续提高,断裂伸长率出现下降.在实验涉及的范围内,复合薄膜保持良好的延展性和热稳定性.     

含氟聚酰亚胺接枝低聚倍半硅氧烷制备超低介电材料

含氟聚酰亚胺接枝低聚倍半硅氧烷制备超低介电材料;介电常数;纳米复合材料;低聚倍半硅氧烷;接枝共聚;含氟聚酰亚胺     

复合粒子涂膜表面疏水性能分形评价

采用接枝法和非均相乳液聚合与溶胶-凝胶法相结合技术,制备了不同形状的复合粒子,经低表面能的物质修饰后,其涂膜表面具有超疏水性。采用分形理论对涂膜表面疏水性进行评价,用分形维数表征涂膜表面微观形貌与疏水性能之间的关系,结果表明对于粗糙结构表面,分形维数较粗糙度因子能更好地反映表面形貌对水接触角的影响。     

Au@PS纳米颗粒掺杂PDMS/(PVDF-TrFE)复合薄膜的制备及介电-疏水性能

结合乳液聚合和还原法在250 nm的聚苯乙烯(PS)微球表面均匀负载了Au纳米颗粒.通过溶液共混法,使Au@PS纳米颗粒与聚二甲基硅氧烷(PDMS)/聚偏氟乙烯-三氟乙烯[P(VDF-TrFE)](质量比为2∶3)均匀混合,制备出结构致密、Au@PS均匀分布的微突起的复合薄膜.研究了不同Au@PS纳米颗粒掺杂量对复合薄膜的结构、熔融结晶行为和介电疏水特性的影响.研究发现,Au@PS纳米颗粒的引入阻碍了P(VDFTr FE)的β相的产生,但对PDMS/P(VDF-TrFE)复合薄膜的化学健结构没有显著影响;随着Au@PS纳米颗粒含量的增多,复合薄膜结晶温度和玻璃化转化温度升高,熔点略有降低.由于界面极化和微电容效应协同作用,掺杂Au@PS复合薄膜的介电常数有显著提升.PS球表面均匀负载的Au纳米颗粒减少了导电网络的构成,使介电损耗维持在较低值.掺杂5%(质量分数) Au@PS的复合薄膜介电常数达到22(100 Hz),分别为纯PDMS和PDMS/P(VDF-TrFE)的8. 8倍和3. 14倍,同时具有优异的疏水特性,接触角达到112. 31°.     

相分离丙烯酸树脂/SiO2复合超疏水薄膜的制备及其性能

基于溶剂诱导相分离法,将丙烯酸树脂薄膜在含有二氧化硅和异氰酸酯三聚体交联剂的乙酸乙酯(良溶剂)和乙醇(不良溶剂)的混合溶剂中浸渍提拉,获得具有多孔结构的超疏水薄膜。分别用红外光谱、扫描电镜表征了超疏水薄膜的结构和形貌,并测试了其疏水性、自清洁性及耐磨性。当混合溶剂中乙酸乙酯与乙醇的体积比为6∶4、SiO_2的质量浓度为0.025g/mL时,超疏水薄膜的水接触角可达158°±3°,且经历35个周期的砂纸磨损(100g载重)后仍保持超疏水性,具备良好的自清洁性与耐磨性。     

聚酰亚胺硅氧烷/聚酰亚胺两面异性复合膜的制备及性能研究

以氨丙基封端的聚二甲基硅氧烷(PDMS)、 4,4'-二氨基二苯醚(4,4'-ODA)和3,4,3',4'-联苯四酸二酐(s-BPDA)为原料, 合成了聚酰胺酸硅氧烷嵌段共聚物. 将此嵌段共聚物和聚酰胺酸(s-BPDA/4,4'-ODA)共混, 通过控制制膜条件, 利用各组分在不同溶剂中的溶解度的差别, 使聚酰亚胺硅氧烷富集在膜的上表面. 因为两相在结构和性质上的相似性, 当聚酰胺酸硅氧烷和聚酰胺酸混合时, 具有很好的相容性, 消除了两相间的界面, 从而制备了优异的聚酰亚胺硅氧烷/聚酰亚胺两面异性的复合膜材料. 利用X射线光电子能谱(XPS)和水滴接触角对此复合膜进行了表征, 证明了此复合膜的两面异性, 并对此复合膜进行了热性能和机械性能研究, 发现此薄膜保持了聚酰亚胺优异的性能.     

双酚F型聚酰亚胺薄膜的制备与性能

以4-氯代酞酰亚胺和双酚F为原料,在N,N′-二甲基乙酰胺溶剂中,经水解、酸化、脱水,合成了一种新型的双酚F型二酐(BPFDA)单体,并用1H NMR和IR测试方法确认了其结构。 采用传统的一步法,用N,N′-二甲基乙酰胺作溶剂,BPFDA分别与4,4′-二氨基二苯醚（ODA）和4,4′-二氨基二苯甲烷（MDA）聚合,得到聚酰胺酸,并进一步热亚胺化得到聚酰亚胺薄膜,并对其进行了表征。 结果表明,BPFDA/ODA薄膜和BPFDA/MDA薄膜的玻璃化转变温度分别为200和204 ℃; 热失重分析表明,质量损失5%的温度分别为506.50和459.10 ℃;其拉伸强度分别为110和100 MPa。     

溶胶陈化对聚酰亚胺/二氧化硅杂化薄膜性能的影响

采用不同陈化时间的酸催化硅溶胶制备SiO2含量一定的聚酰亚胺/二氧化硅杂化薄膜,用FTIR-ATR、SEM、TMA等手段对其微相结构、热稳定性、力学性能进行了研究.结果表明:随着硅溶胶水解和聚合反应的进行,杂化薄膜中的SiO2颗粒由棒状长大为球体,并逐渐团聚、变形,薄膜的光学透明性降低,热膨胀系数逐渐减小,拉伸强度先增大后减小.当球形SiO2颗粒的直径小于1 μm且均匀分布在基体中时,薄膜综合性能最优.     

透明抗静电多功能超疏水薄膜的制备

采用提拉法在聚酰亚胺薄膜表面分步涂覆了银纳米线及疏水纳米二氧化硅, 分别构筑了导电网络及超疏水涂层, 制备了超疏水抗静电透明薄膜. 研究结果表明, 超疏水抗静电透明薄膜保持了较高的透光性, 其透光率高于90%. 同时, 银纳米线网络的构筑有效增加了超疏水抗静电透明薄膜的导电性, 使其表面电阻介于10⁶~10¹⁰ Ω之间, 达到了抗静电要求. 水滴在该薄膜表面静态接触角高达156.4°, 滚动角小于1°, 展现了优异的超疏水特性. 通过导电网络及疏水涂层的构筑, 实现了透明及抗静电超疏水多功能的统一.     

Polyhedral oligomeric silsesquioxane (POSS) reinforced-unsaturated polyester hybrid nanocomposites: Thermal,thermomechanical and morphological properties

Unsaturated polyester (UP)-POSS hybrid nanocomposites have been developed successfully through the reaction between maleimide groups Octa (maleimido phenyl) silsesquioxane (OMPS) and olefinic reactive sites (maleimide and styrenic units) present in the unsaturated polyester resin system through free radical polymerization using benzoyl peroxide (BP) as the initiator. The hybrid molecular structure of nanocomposites resulted was evaluated by FT-IR spectroscopy. The data obtained from XRD, SEM and TEM analysis ascertain the presence of homogeneous morphology and nanoscale dispersion of OMPS into the polyester hybrid nanocomposites. Data resulted from thermal (DSC and TGA) and thermo-mechanical (DMA) studies indicated that the incorporation of octamaleimide functionalized POSS into unsaturated polyester systems appreciably improved the thermal properties of the hybrid nanocomposites according to their percentage concentration.     

多面体低聚八硝基苯基硅倍半氧烷纯度分析

使用高效液相色谱-电喷雾四级杆飞行时间质谱(HPLC-ESI-Q-TOF MS)联用技术对八硝基苯基硅倍半氧烷(ONPS)纯度进行分析, 从而判定ONPS产物峰及杂质峰的位置, 根据ONPS峰和杂质峰的面积比计算ONPS的纯度. 通过改变HPLC的洗脱梯度和测试时间, 将ONPS产物中的杂质峰完全分开, 测得硝基苯基硅倍半氧烷(NPS)质量分数为97.55%, 其中ONPS的纯度约为92.42%, 产物中含有九硝基八苯基硅倍半氧烷(9-NPS)约5.13%, 其它杂质含量约为2.45%. 通过对ONPS高效液相色谱图峰形和同分异构体极性情况分析, 进一步证明ONPS分子中硝基取代发生于对位和间位. 使用超高效液相色谱(UPLC)对ONPS进行分析, 以更高的分离效率验证了HPLC的结果. 该方法可作为ONPS纯度的分析方法.     

Rodlike/flexible polyimide composite films prepared from soluble poly(amic diethyl ester) precursors: Miscibility,structure, and properties

Homogeneous precursor/precursor solutions with various compositions were obtained with appreciably high solid contents in N-methyl-2-pyrrolidone from soluble poly(amic diethyl ester) precursors of rodlike poly(p-phenylene biphenyltetracarboximide) (BPDA-PDA) and flexible poly(4,4′-oxydiphenylene biphenyltetracarboximide) (BPDA-ODA), which are hydrolytically more stable as well as more soluble than the corresponding poly(amic acid)s being equilibrated with the constituent monomers. Both optical microscopic and light scattering measurements showed that the dried precursor blend films and resultant polyimide composite films were optically transparent, regardless of compositions and process conditions. The composite films showed a single T_g behavior. However, for the composite of 30 wt % BPDA-PDA dispersed in the matrix of 70 wt % BPDA-ODA, a smectic crystalline-like aggregation of the BPDA-PDA component was detected on wide-angle x-ray diffraction patterns, indicative of microscopic phase separation between the two components. This phase separation was not detected on the optical microscopy, light scattering, and dynamic mechanical thermal analysis because of their resolution limits: Optical microscopy has a resolution of submicrometers, whereas dynamic mechanical thermal analysis and light scattering have a resolution of ca. 50 Å. Therefore, it is speculated that in the composite films BPDA-PDA and BPDA-ODA polyimide molecules have demixed on the scale of a few nanometers. The mean long periodicity, which was estimated from the small-angle x-ray scattering pattern, varied from 134 to 170 Å as the content of BPDA-ODA component increased. In addition, mechanical properties of the composite films were characterized. ©1995 John Wiley & Sons, Inc.     

多面体低聚八氨基苯基硅倍半氧烷合成方法改进及其表征

以八硝基苯基硅倍半氧烷(ONPS)为原料, 5% Pd/C 和FeCl₃ 为催化剂, 水合肼为还原剂, 在四氢呋喃溶液中反应 1 h 合成了八氨基苯基硅倍半氧烷(OAPS). 相比文献中已有的其它合成方法, 该方法合成过程简单且稳定, 催化效率高、产率高、周期短. 通过FTIR, ¹H NMR, GPC 对产物进行了表征, 证明了硝基已完全转化. 通过催化剂的控制, 分离出ONPS 向OAPS 转化过程中的一种含有羟胺和二羟胺基团的中间体. 分析了OAPS 合成机理, 提出了ONPS 和水合肼的反应历程. 认为ONPS 中的硝基先经过2 电子转移转化为二羟胺化合物, 然后经过脱水加氢生成羟胺化合物, 最后再经过脱水加氢生成OAPS; 在有ONPS 存在的情况下, 水合肼主要转化为氮气和氢气, 待ONPS 完全转化为OAPS 后, 水合肼转化为氮气和氨气.     

Epoxy/polyhedral oligomeric silsesquioxane nanocomposites from octakis(glycidyldimethylsiloxy)octasilsesquioxane and small‐molecule curing agents

Epoxy/polyhedral oligomeric silsesquioxane (POSS) nanocomposites were obtained from octakis(glycidyldimethylsiloxy)octasilsesquioxane (OG) and diglycidyl ether of bisphenol A cured with small‐molecule curing agents of diethylphosphite (DEP) and dicyandiamide (DICY). An increase in the POSS contents of the nanocomposites and an improvement in the nanocomposite homogeneity were observed with the use of the small‐molecule curing agents. Phosphorus in DEP and nitrogen in DICY also performed synergism with POSS for thermal stability enhancement and flammability improvement in the nanocomposites. The nanocomposites possessing high OG contents exhibited good thermal stability, improved flammability, and high storage moduli. © 2006 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 44: 3825–3835, 2006     

New metallodendrimers containing an octakis(diphenylphosphino)-functionalized silsesquioxane core and ruthenium(II)-based chromophores

A new class of surface-modified dendrimers has been prepared by reactions of 8 equiv of the terpyridine-functionalized polyether monodendrons with a polyhedral oligomeric silsesquioxane (POSS) core. Subsequent reactions of these spherically shaped organic dendrimers with Ru(II)-based precursors afford photo- and redox-active metallodendrimers. These new dendrimers have been characterized using a combination of mass spectral analysis (MALDI-TOF/MS, ESI/MS, and FAB/MS), nuclear magnetic resonance (1H, 13C, 29Si, and 31P(1H) NMR), photophysical analyses (electronic absorption, emission, excited-state lifetime, and quantum yield) and electrochemical measurement (cyclic voltammetry). Specifically, 31P(1H) NMR is used to monitor the completion of reactions and the purity of dendrimers and metallodendrimers. These new metallodendrimers exhibit large extinction coefficients that coincide with the number of peripheral Ru(II)-based chromophores. With the use of (-CH2-Ph-tpy)RuII(bpy)2 type of chromophores, all metallodendrimers are found emissive at room temperature, with lifetimes in the range of 605-890 ns. Photophysical data also indicate similar steady-state emission maxima and single-exponential decay kinetics for all metallodendrimers, and the observed overall quantum yields of the G1, G2, and G3 metallodendrimers are found to be 14, 20, and 7 times higher than that of the monomeric model complex (CH3-Ph-tpy)Ru(bpy)2(PF6)2. Electrochemical studies reveal the presence of surface-confined species, in addition to the ligand-centered and metal-centered redox processes.     

Structure and infrared emissivity of polyimide/mesoporous silica composite films

Polyimide/mesoporous silica composite films were prepared by direct mixing of polyamic acid solution and silylated mesoporous silica particles, or by condensation polymerization of dianhydride and diamine with silylated mesoporous silica particles in N,N-dimethylacetamide, followed with thermal imidization. Structure and glass transition temperatures of the composite films were measured with FTIR, SEM, EDX, XPS and DMTA. The results show that the silylated mesoporous silica particles in the composites tend to form the aggregation with a strip shape due to phase separation. The composite films exhibit higher glass transition temperature as comparing with that of pure polyimide. It is found that the composite films present lower infrared emissivity value than the pure polyimide and the magnitude of infrared emissivity value is related to the content of silylated mesoporous silica in the composite films. Inhibiting actions of silylated mesoporous silica on infrared emission of the composite films may be owing to presence of nanometer-scale pores in silylated mesoporous silica.     

Microstructure and properties of organosoluble polyimide/silica hybrid films

Organosoluble polyimide/silica hybrid materials were prepared via the sol-gel process and their pervaporation properties were studied. The organosoluble polyimide (PI) was based on 4,4′-oxydiphthlic dianhydride (ODPA) and 4,4′-diamino-3,3′-dimethyldiphenylmethane (DMMDA). The surface chemical structure of polyimide/silica films was analyzed by Fourier transform infrared (FT-IR) and X-ray photoelectron spectroscopy (XPS) and the results show that the completely hydrolysis of alkoxy groups of precursors and formation of the three-dimensional Si-O-Si network in the hybrid films. The morphology and the silica domain thus obtained were studied by scanning electron microscopy (SEM) and atomic force microscopy (AFM), respectively. The silica particle size in the hybrid is in the range of 40-100 nm for the hybrid films when the amount of silica is less than 20 wt%. The strength and the modulus of the hybrid films are improved and the mechanical properties were found to be strongly dependent on the density of the crosslink. The glass transition temperature (T_g) of the hybrid films was determined by dynamic mechanical analysis (DMA) and the value increased 15-20 °C as the silica content increased. Furthermore, the pervaporation performances of the prepared hybrid films were also investigated for the ethanol/water mixtures at different temperature.     

The preparation and properties of polyimide films modified by octa(aminopropylsilsesquioxane)

A number of polyimide films incorporated with different amounts of octa(aminopropylsilsesquioxane) (POSS-NH₂) were prepared from 1,2,4,5-Benzenetetracarboxylic anhydride, 4,4′-Oxydianiline and POSS-NH₂. The structure and properties of the hybrid polyimide films were characterized and evaluated. It is found that, compared with pure polyimide without POSS-NH₂, the thermal stabilities and electrical capabilities of hybrid polyimide films are improved. Meanwhile, the incorporation of POSS-NH₂ also brings improvement in the flexibility of polyimide films.     

Preparation and morphological,electrical, and mechanical properties of polyimide‐grafted MWCNT/polyimide composite

Precursor of polyimide, polyamic acid has been prepared sucessfully. Acid‐modified carbon nanotube (MWCNT) was grafted with soluble polyimide then was added to the polyamic acid and heated to 300 °C to form polyimide/carbon nanotube composite via imidation. Morphology, mechanical properties and electrical resistivity of the MWCNT/polyimide composites have been studied. Transmission electron microscope microphotographs show that the diameter of soluble polyimide‐grafted MWCNT was increased from 30–60 nm to 200 nm, that is a thickness of 70–85 nm of the soluble polyimide was grafted on the MWCNT surface. PI‐g‐MWCNT was well dispersed in the polymer matrix. Percolation threshold of MWCNT/polyimide composites has been investigated. PI‐g‐MWCNT/PI composites exhibit lower electrical resistivity than that of the acid‐modified MWCNT/PI composites. The surface resistivity of 5.0 phr MWCNT/polyimide composites was 2.82 × 10⁸ Ω/cm² (PI‐g‐MWCNT) and 2.53 × 10⁹ Ω/cm² (acid‐modified MWCNT). The volume resistivity of 5.0 phr MWCNT/polyimide composites was 8.77 × 10⁶ Ω cm (PI‐g‐MWCNT) and 1.33 × 10¹³ Ω cm (acid‐modified MWCNT).Tensile strength and Young's modulus increased significantly with the increase of MWCNT content. © 2007 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 45: 3349–3358, 2007