主链含N-烷基咔唑环结构聚芳醚酮的性能表征

对含N-烷基咔唑环结构的聚芳醚酮(PPCzE、PPCzB和PPCzH)进行基本物理性能方面的表征,并与商业化酚酞基聚芳醚酮(PEK-C)进行比较。 咔唑环结构的引入使聚合物在345 nm附近有强紫外光吸收并表现出发蓝光能力。 由于疏水性烷基侧链的存在,聚合物薄膜的水接触角(87°~103°)大于PEK-C(76°),但同时烷基侧链所引起的聚合物链间距的增大导致聚合物的吸水率(0.65%~0.86%)高于PEK-C(0.56%)。 此外,聚合物表现出较好的尺寸稳定性(平均线膨胀系数6.4×10^-5 ℃^-1)和电绝缘性能(体积电阻率10¹⁶ Ω·cm)。 聚合物的拉伸模量在1.9~2.0 GPa之间,拉伸强度在72.5~75.0 MPa之间以及断裂伸长率在6.5%~7.2%之间。 高温条件下(≤225 ℃),PPCzE仍具有良好的拉伸性能。     

主链含酞和芴结构的无定形聚芳醚酮的合成

通过共聚改性在酚酞聚芳醚酮(PEK-C)的主链上引入含芴侧基,制备了一系列主链含酞和芴结构的线性高分子量无定形聚芳醚酮无规共聚物.通过傅里叶红外光谱(FTIR)、核磁共振谱(1H,13C NMR)等手段确定了共聚物结构.凝胶渗透色谱(GPC)数据表明,共聚物的Mn>6.0×104,Mw>1.0×105,PDI(Mw/Mn)范围在1.6~1.7之间.X射线衍射(XRD)数据表明共聚物系无定形结构,差示扫描量热法(DSC)和热重分析(TGA)测试表明聚合物具有良好的耐热性;初始热分解温度高于467℃;700℃时残炭率大于58.9%;共聚物呈现单一的玻璃化转变温度(Tg>243℃).当酚酞与双酚芴摩尔比在3∶7~5∶5范围时,共聚物的弹性模量和断裂伸长率显著提高,可分别达到3.1 GPa和58%,是酚酞聚芳醚酮的1.4倍和8.3倍.这类含酞和芴侧基的无定形聚芳醚酮保持了在氯仿、二氯甲烷、四氢呋喃(THF)和甲基吡咯烷酮(NMP)等极性非质子溶剂中良好的溶解性能,并显著提高了聚合物的力学性能和热性能.     

侧链含萘可交联聚芳醚酮的合成及性能

以4,4'-二羟基苯基正戊酸和4,4'-二氟二苯酮为原料, 二甲基亚砜(DMSO)为溶剂, 采用亲核取代反应合成侧基含羧基的聚芳醚酮均聚物, 进一步与1-萘酚和2-萘酚接枝制备新型含萘可交联聚芳醚酮. 用核磁共振(NMR)、红外光谱(FTIR)、示差扫描量热(DSC)和热重分析(TGA)表征其结构和性能, 含萘聚芳醚酮在常用有机溶剂如N,N-二甲基乙酰胺(DMAc)、DMSO, 四氢呋喃(THF)中有良好的溶解性, 并具有很好的成膜性. DSC测试结果显示, 在170℃热处理2 h的交联聚合物的玻璃化转变温度(T_g)提高40℃. TGA数据显示接枝后的聚合物的5%热失重温度提高40~50℃, 证明其发生交联反应. 结果表明, 新型含萘可交联聚芳醚酮具有热固性树脂的耐溶剂和耐高温特性, 进一步拓宽了聚芳醚酮的应用前景.     

钒电池用季铵化杂萘联苯聚芳醚酮酮阴离子交换膜

以氯甲基辛醚为氯甲基化试剂, 对杂萘联苯聚芳醚酮酮(PPEKK)进行改性, 制备了氯甲基化杂萘联苯聚芳醚酮酮(CMPPEKK). 考察了氯甲基辛醚用量对氯甲基化程度的影响. ¹H NMR表明氯甲基成功引入到聚合物结构中. 采用溶液法制备了CMPPEKK基膜, 然后将其进行三甲胺胺化, 制备了季铵化杂萘联苯聚芳醚酮酮(QAPPEKK)阴离子交换膜. 表征了QAPPEKK的基本性能: 离子交换容量, 含水率, 面电阻. QAPPEKK膜的含水率随离子交换容量增加而升高, 面电阻随离子交换容量的增加而降低. 将QAPPEKK膜应用于全钒液流电池(VRB)中, 电池的能量效率达到85.0%, 电流效率为98.5%, 电压效率为86.3%.     

醚链改性聚环氧乙烷的合成及性能研究

考察烷基磷酸铝催化剂i-Bu₃Al/H₃PO₄/DBU催化环氧乙烷(EO)、甘醇甲基缩水甘油醚(nGE)与烯丙基缩水甘油醚(AGE)二元及三元共聚合的催化性能,通过核磁共振波谱(NMR)、凝胶渗透色谱(GPC)和示差扫描量热仪(DSC)对共聚物微观结构和热性能进行表征分析。结果表明25℃甲苯溶剂中,i-Bu₃Al/H₃PO₄/DBU催化剂可以高效催化不同比例的EO、nGE和AGE共聚合,以100%收率获得组成精确可控的高分子量EO-nGE二元及EO-AGE-nGE三元无规共聚物;nGE的醚链长度对聚合性能无影响,二甘醇甲基缩水甘油醚(2GE)和四甘醇甲基缩水甘油醚(4GE)均可实现可控引入聚环氧乙烷制备醚链改性聚环氧乙烷。EO-AGE-nGE三元共聚物以1,2-乙二硫醇为交联剂制备了交联聚合物。测试醚链改性聚环氧乙烷的性能,发现醚链长度、含量及交联对聚合物电导率和力学性能有很大影响。4GE为共聚单体的聚环氧乙烷电导率高于2GE。随着醚链含量增大,聚合物电导...     

氟硅改性聚氨酯自组装膜的合成及性能

以甲苯二异氰酸酯、聚酯二元醇、2,2-二羟甲基丙酸和十三氟-1-辛醇等为原料合成了氟醇封端的聚氨酯预聚体(FPU)。 通过FPU侧链含有的羧基官能团与异氰酸酯基硅烷偶联剂(Si-NCO)反应制备了含硅氧烷官能团功能性树脂(FPUSi)。 采用红外光谱(FT-IR) 对产物结构进行了表征,用TGA和水接触角等测试了自组装薄膜的表面性能。 结果表明,在N2气氛围下,FPU和FPUSi的热失重温度（T5％）均为178 ℃;硅基表面经FPUSi自组装膜修饰后,其表面水接触角达到81°。 微摩擦测试结果表明,当载荷为400 mN时,FPUSi自组装薄膜的稳定摩擦系数达到0.09。     

离子自组装合成侧链型偶氮复合物及其聚集形态研究

用溶液聚合法制备了4-乙烯基吡啶与丙烯腈的无规共聚物(P4VP-r-AN), 采用¹H NMR, ¹³C NMR, DSC和FTIR等手段确定了其结构和组成. 粘度法测得其粘均分子量为1.06×10⁴ g/mol, 由其¹H NMR 谱峰面积估算得到4-乙烯基吡啶链段的质量百分含量约为87.1%. 以质子化的4-乙烯基吡啶-丙烯腈无规共聚物(P4VP^＋-r-AN)为模板, 与酸性间胺黄(MY)在水溶液中通过离子自组装, 制备了一种侧链型偶氮复合物(P4VP-r-AN/MY). 用¹H NMR, FT-IR, DSC, UV-Vis, SEM, TEM和HRTEM&EDS(高分辨率透射电镜与X射线能谱联用)等手段研究了该复合物的聚集形态及自组装过程. 研究发现MY通过静电相互作用复合到P4VP^＋-r-AN链上并发生聚集, 使复合物分子链聚集形成尺寸为10～200 nm的球形聚集体. P4VP-r-AN/MY中, MY与P4VP-r-AN的物质的量之比为0.575. HRTEM&EDS测试结果显示P4VP-AN/MY球形聚集体中硫元素的分布接近球形, 与聚集体的形状几乎一致, 表明MY分子在该组装物中主要以球形纳米聚集体的形式存在.     

耐热高透明聚醚砜醚酮酮的合成和表征

以芳醚单体4,4′-二苯氧基二苯砜(DPODPS)与1,4-环己二甲酰氯(CHDC),在以路易斯酸无水三氯化铝(AlCl_3)为催化剂下进行亲电取代缩合聚合,制备了一种大分子主链含环己基和砜基的聚醚砜醚酮酮(PESEKK)树脂。结果表明,PESEKK树脂为非晶态结构,玻璃化转变温度(T_g)为204℃,热分解温度(T_d)为440℃,具有优异的热性能;树脂可溶解于二甲基亚砜、N-甲基吡咯烷酮、氯仿等有机溶剂中,并可涂膜制得高透明薄膜,薄膜紫外光透过截止波长为350 nm,在可见光范围内透过率大于80%;薄膜拉伸强度为72 MPa,弹性模量为1.89 GPa,力学性能较好。     

聚正己基三苯乙炔基硅烷树脂的合成及其热稳定性能

以正己基三氯硅烷、镁条、溴乙烷和苯乙炔为原料,通过Grignard反应合成单体正己基三苯乙炔基硅烷（NTPES）,其结构经¹H NMR,¹³C NMR, ²⁹Si NMR和FT-IR表征,采用非等温差热扫描量热法（DSC）研究了其热固化行为。通过热聚合合成了聚正己基三苯乙炔基硅烷树脂（PNTPES）,运用热重分析（TG）技术研究了固化树脂的热稳定性。结果表明：树脂在氮气气氛中质量损失5%的温度高于445 ℃, 800 ℃残存率大于60%,具有较好的热稳定性。     

4种低密度聚乙烯树脂的链结构及其性能

选用4种商品化的具有不同熔体流动速率的低密度聚乙烯(LDPE),利用高温凝胶渗透色谱仪(HT-GPC)、碳核磁共振谱仪(¹³C NMR)、差示扫描量热仪(DSC)和流变仪研究其链结构特点及其流变性能。 按照相对分子质量的差异分成两组,D-1和Q-1,D-3和Y-1,每组的两个样品具有相近的平均相对分子质量。 ¹³C NMR的结果表明,4种LDPE都既含有短链支化又含有长链支化,且短链支化含量均高于长链支化含量;而短链支化中丁基含量最多。 连续自成核退火热分级(SSA)结果表明,树脂中均含有不同长度的可结晶的亚甲基序列,即每种树脂分子链内的短链支化分布不均匀。 探讨了相对分子质量及其分布、亚甲基序列长度及其分布、支化含量、结晶度等因素对树脂熔融行为、流变行为和薄膜力学性能的影响,发现Q-1的低相对分子质量尾端和Y-1的长链支化含量均影响熔体流动速率,平均亚甲基序列长度决定熔融峰的位置,结晶度直接影响薄膜的力学性能。 基于上述结果,建立结构与性能的关联。     

一种新型偶氮聚电解质的光致取向行为研究

1992年Decher等报道了聚电解质的静电逐层自组装技术，即将带有相反电荷的两种聚电解质通过交替沉积的方式，在固体介质表面上形成均匀的厚度可控的多层膜。利用此方法可方便地对膜结构进行设计和调控，从原理上讲，可制备任意成分多层复合的新材料。该技术以其操作简易，结构可控等特点已成为近10年功能高分子纳米薄膜领域的研究热点。     

Preparation and micro-mechanical studies of polysiloxane-containing dual-layer film on Au surface

A novel polysiloxane-containing self-assembled dual-layer film was grafted onto Au surface with a simple three-step method. Firstly, (3-mercaptopropyl)trimethoxysilane (MPTMS) molecules were self-assembled on Au surfaces through S–Au bond followed by hydrolysis and condensation, then the octadecyltrichlorosilane molecules were attached to the resultant hydroxyl terminated surface via the Si–O–Si bonds. The structure and morphology of the film were characterized by means of contact angle measurement, ellipsometry, attenuated total reflectance Fourier transformed infrared spectra, and atomic force microscopy. The resistant ability of charge transfer in the film forming process was detected by electrochemical techniques. Using force–volume technique, we investigated how the different surface chemical groups influence the surface adhesion properties. The nano-friction properties of the as-prepared films were investigated by frictional force microscopy. The results indicated that the dual-layer film fabricated via the hydrolyzation of MPTMS underlayer had significantly less friction. Moreover, compared to the self-assembled monolayer of octadecane thiol, the resultant dual-layer film showed much less wear. This improvement was mainly ascribed to the existence of the network of lateral cross-linked polysiloxane layer within the film which can enhance the stability of the film.     

MoS2的水热合成及其润滑性能

利用水热合成法在相对较低的反应温度(200 ℃)和较短的反应时间(24 h)内合成了MoS2.采用透射电子显微镜(TEM)、X射线光电子能谱(XPS)和X射线衍射(XRD)分析了合成的纳米MoS2的结构.同商品MoS2（平均颗粒直径为3～5 μm）进行了摩擦学性能对比，并利用俄歇电子能谱(AES)深度剖析和XPS分析了MoS2作为润滑剂在钢磨损表面的粘着成膜作用及润滑机理.结果表明,该水热合成的产品具有较商品MoS2更低的摩擦系数，适合在大载荷、长时间工作状况下使用.     

Preparation and tribological studies of C60 thin film chemisorbed on a functional polymer surface

A novel self-assembled C60 film was prepared by chemical adsorption of C60 molecules onto an amino-group-containing polyethyleneimine-coated silicon substrate surface. The contact angle of distilled water on the C60 film was measured, the thickness was determined by means of ellipsometric analysis, and the morphology was observed with an atomic force microscope. The tribological properties of the films were investigated as well. It was found that the C60 thin film had a contact angle of about 72 degrees and thickness of 1.8 nm and exhibited a surface domain microstructure composed of fullerene clusters. Due to the hydrophobicity and low surface energy, the C60 film possessed good adhesive resistance and had an adhesive force of about 7.1 nN, which was about an order of magnitude lower than that of the silicon substrate surface. Moreover, the C60 film showed good friction reduction, load-carrying capacity, and antiwear ability, which were attributed to the higher mechanical stiffness and elastic modulus of C60 molecules. Besides, the friction coefficient decreased with increasing sliding velocity and normal loads, due to the rolling effect of the physisorbed C60 molecules.     

Characterization and tribological investigation of self-assembled trimethoxysilyl-functionalized poly(phthalazinone ether ketone)thin films on glass substrates

<正>Trimethoxysilyl-functionalized PPEK(PKGS) films had been designed to serve as wear resistant coatings for silicon surfaces. These surface films were formed by a dip-coating technique applied to self-assembled monolayers(SAMs).The formation and wetting behavior of PKGS films were characterized by means of contact angle measurement.The friction coefficient of the film prepared is very low(about 0.1),and the anti-wear behavior is good,with a lack of failure after sliding over 1800 s.     

A novel photoalignment film for ferroelectric liquid crystal based on self-assembled monolayer method

A novel strategy based on self-assembly technology was devised for design of photosensitive material as a ferroelectric liquid crystal (FLC) alignment layer. This development offers new tools for the study and control at the molecular level of the interaction of FLCs with solid surfaces. The photoreactive material was self-assembled to the substrate by covalent bond linkage due to a special chemical adsorption reaction. Through ester bond linkage, a cyano group with strong polarity was introduced to be terminus of the film. Under irradiation of linearly polarised ultraviolet light, an optically anisotropic self-assembled film was easily obtained. The irradiated film was demonstrated to result in homogenous alignment of FLC by optical transmittance measurements and polarising optical microscopy images of a FLC cell at different rotation angles. The alignment quality of the FLC on this self-assembled monolayer film is comparable to that of commercial rubbed polyimide film. Furthermore, it was also found that the fine alignment of the FLC may be related to the smoothness of the self-assembled film surface owing to its polar end.     

氟含量对含氟丙烯酸酯共混乳胶膜梯度结构和表面性能的影响

首先将制备出的平均粒径较小的含氟丙烯酸酯均聚物乳液与平均粒径较大的纯丙烯酸酯共聚物乳液按不同的比例( 1/9,2/8,3/7,4/6,5/5)共混,接着将各共混乳液在室温下(20℃)玻璃基材上干燥后,于110℃/210℃下热处理一段时间.运用接触角法,XPS、AFM、SEM-EDX等详细研究了共混乳胶膜中含氟组分含量对...     

Exploiting poly(dimethylsiloxane)-modified tips to evaluate frictional behavior by friction force microscopy

With the aim of investigating the effect of the surface properties on the friction behavior of self-assembled monolayers, we have modified tipless atomic force microscopy (AFM) cantilevers with a poly(dimethylsiloxane) (PDMS) lens. The friction coefficient using the silicon tip is strongly influenced by the mechanical properties of the substrate monolayer because hard, sharp silicon tips penetrate the surface of organic monolayers. However, the friction coefficient obtained for the PDMS-modified AFM cantilever is mostly due to the surface properties of the monolayer functional end group, rather than the viscoelastic deformation of the monolayer. The use of the PDMS tip was demonstrated as a novel means to investigate the effect of surface properties on the frictional behavior of self-assembled monolayers with various functional groups with less mechanical deformation.     

Y_2O_3∶Eu~(3+)薄膜的制备及发光性能的研究

以稀土氧化物为原料,用溶胶-凝胶法制备前驱液,加入适量的聚乙烯醇做成膜物质,用浸渍拉提法在石英玻璃表面上得到均匀的薄膜,然后经过适当的干燥和热处理得到Y2O3∶Eu3+发光薄膜.讨论了Eu3+的掺杂浓度和热处理温度对薄膜发光性能的影响.试验表明:Eu3+的最佳掺杂浓度为8%(摩尔分数),薄膜的发光性能随热处理温度提高而增强,当热处理温度达到700℃后,薄膜的发光性能基本上稳定.同时用原子力显微镜和X射线衍射分析了薄膜的表面形貌和结构.