硅胶表面抗蚜威分子印迹聚甲基丙烯酸的制备及识别特性

通过γ-(甲基丙烯酰氧)丙基三甲氧基硅烷的媒介作用,将功能大分子聚甲基丙烯酸(PMAA)逐步接枝到硅胶微粒表面,形成了表面接枝聚甲基丙烯酸的硅胶微粒(PMAA/SiO2);以抗蚜威为模板分子、乙二醇二缩水甘油醚(EGDE)为交联剂,通过氢键和静电作用,对接枝到硅胶表面的PMAA进行分子印迹,制备了抗蚜威分子表面印迹材料硅胶表面分子印迹聚甲基丙烯酸MIP-PMAA/SiO2;采用静态与动态两种方法研究了 MIP-PMAA/SiO2 对抗蚜威的结合特性,并考察了主要印迹条件 pH、混合溶剂中乙醇含量以及交联剂用量对印迹材料结合选择性能的影响.结果表明:表面印迹材料 MIP-PMAA/SiO2对抗蚜威具有特异的结合选择性,相对于参比物残杀威,印迹前 PMAA/SiO2对抗蚜威的吸附选择系数为 1.52,而表面印迹材料 MIP-PMAA/SiO2 对抗蚜威的吸附选择系数提高到 12.2.另外该印迹材料具有优良的洗脱与再生性能.     

型胶原在聚-L-乳酸(PLLA)表面的化学接枝和涂层及其对软骨细胞生长的促进作用

采用接枝-涂层技术在聚-L-乳酸(PLLA)膜表面接枝聚甲基丙烯酸(PMAA)得到稳定的PLLA-g-PMAA胶原涂层.利用水溶性碳化二亚胺作为缩合剂,使PLLA-g-PMAA表面的羧基和胶原分子中的氨基发生缩合反应,从而将型胶原接枝在PLLA表面;同时保留材料表面物理涂层的胶原溶液,获得了稳定的胶原涂层.XPS谱图证实了接枝反应的发生.分别用比色法和茚三酮法测定了PLLA-g-PMAA表面的羧基密度和PLLA膜表面胶原的接枝量和涂层量.细胞培养结果表明,改性后的PLLA膜表面软骨细胞的铺展性能和增长速度明显改善.     

型胶原在聚-L-乳酸(PLLA)表面的化学接枝和涂层及其对软骨细胞生长的促进作用

采用接枝 -涂层技术在聚 -L-乳酸 ( PLLA)膜表面接枝聚甲基丙烯酸 ( PMAA)得到稳定的 PLLA-g-PMAA胶原涂层 .利用水溶性碳化二亚胺作为缩合剂 ,使 PLLA-g-PMAA表面的羧基和胶原分子中的氨基发生缩合反应 ,从而将 型胶原接枝在 PLLA表面 ;同时保留材料表面物理涂层的胶原溶液 ,获得了稳定的胶原涂层 . XPS谱图证实了接枝反应的发生 .分别用比色法和茚三酮法测定了 PLLA-g-PMAA表面的羧基密度和 PLLA膜表面胶原的接枝量和涂层量 .细胞培养结果表明 ,改性后的 PLLA膜表面软骨细胞的铺展性能和增长速度明显改善 .     

聚甲基丙烯酸基纳米水凝胶的“绿色”合成

利用原位生成的聚甲基丙烯酸甲酯种子乳胶模板以及表面活性剂与功能单体间的正负电荷作用,发展了一种可在全水相中“绿色”合成聚甲基丙烯酸(PMAA)基纳米水凝胶的新方法.利用动态光散射法、ξ-电位测定、FTIR和TEM对纳米水凝胶的尺寸及其分布、表面电荷、组成、形态、结构和pH响应行为进行了表征.结果表明,PMAA基纳米水凝胶具有聚甲基丙烯酸甲酯内核和交联聚甲基丙烯酸外壳的核壳结构.当甲基丙烯酸(MAA)的用量由2 mL增至3 mL时,PMAA基纳米水凝胶的尺寸变大.当MAA的用量增加至5 mL时,反应体系中除了生成PMAA基纳米水凝胶外,还生成了PMAA次级粒子.PMAA基纳米水凝胶表现出良好的pH响应性:当介质的pH值由2增加至7时,其流体力学体积扩张了近80倍.     

等离子体引发HEMA的RAFT接枝聚合改性聚丙烯多孔膜

采用等离子体引发的可逆加成-断裂链转移(RAFT)接枝聚合法,以甲基丙烯酸羟乙酯(HEMA)为单体,对聚丙烯(PP)多孔膜表面作了亲水改性.研究了接枝聚合动力学,并以FT-IR、SEM、压汞、水通量等方法研究了改性膜的表面结构形态及孔结构.结果表明,等离子体引发的RAFT接枝聚合速率显著低于普通等离子体引发的接枝聚合速率.表面接枝率随着接枝聚合时间的延长呈线性增长趋势,同时改性膜的孔径和水通量随之减小.     

接枝微粒PMAA/SiO2对胆红素吸附性能的研究

采用溶液聚合法将甲基丙烯酸(MAA)接枝于硅胶微粒表面,制得了接枝微粒PMAA/SiO2；并通过静态吸附实验研究了该功能微粒对胆红素的吸附性能,考察了介质pH值、离子强度及温度等因素对吸附性能的影响,研究了在牛血清白蛋白(BSA)存在下该微粒的吸附性能.静态吸附实验结果表明,接枝微粒PMAA/SiO2对胆红素具有较强吸...     

聚甲基丙烯酸单层修饰金纳米粒子的制备及pH响应性催化

采用可逆加成断裂链转移(RAFT)聚合制备了具有硫醇端基的聚甲基丙烯酸叔丁酯(PtBMA),通过其水解得到具有pH刺激响应的聚甲基丙烯酸(PMAA)。利用硫醇端基与金之间的强耦合作用获得了聚甲基丙烯酸单层修饰的金纳米粒子(PMAA-GNPs)催化体系。利用UV-Vis光谱和透射电子显微镜(TEM)研究了PMAA-GNPs催化剂在不同pH值下的分散状态。以NaBH4还原对硝基苯酚的反应,验证了此催化体系的pH响应性。结果表明,调节体系的pH值为酸性,PMAA塌缩和包覆在金纳米粒子(GNPs)的表面,引起GNPs的聚集,从而降低了催化效率。反之,在碱性环境中,在PMAA链的排斥作用下,GNPs能较好的分散,提高催化效率。     

表面接枝聚甲基丙烯酸二甲氨乙酯的pH响应型纤维素纸基材料

使用电子转移再生引发剂原子转移自由基聚合(ARGET ATRP)在滤纸表面接枝聚甲基丙烯酸二甲胺乙酯(PDMAEMA),成功制备了具有p H响应性能的新型纤维素纸基材料.分别在苯甲醚和甲醇中进行该接枝聚合反应,发现在甲醇中接枝效率更高.通过游离引发剂生成的均聚物研究了滤纸表面聚合物侧链的分子量及分子量分布.均聚物的GPC曲线表明聚合物分子量随反应时间增加而增加,分子量分布为1.4~1.6.通过FTIR、SEM及接枝率的测量对改性滤纸进行表征,结果表明PDMAEMA在滤纸表面的接枝聚合具有可控性,通过控制反应时间可控制聚合物在滤纸表面的接枝量.在不同p H条件下对改性滤纸进行静态水接触角的测量,发现其疏水性随p H升高而增大,体现出该纸基材料的p H响应特性.     

接枝微粒PMAA/SiO2在水介质中对杀虫剂抗蚜威的吸附机理

以硅胶表面接枝聚甲基丙烯酸(PMAA)的复合型功能微粒PMAA/SiO2为固体吸附剂, 对水介质中的抗蚜威进行了静态吸附实验, 通过考察温度、pH值及盐度(NaCl浓度)对吸附容量的影响, 重点研究了PMAA/SiO2对抗蚜威的吸附机理. 为确认所提出的机理的正确性, 还采用紫外光谱吸收法, 研究了单体甲基丙烯酸与抗蚜威之间的相互作用, 也考察了在非水介质CCl4中PMAA/SiO2对抗蚜威的吸附作用. 研究结果表明, PMAA/SiO2对抗蚜威具有强的吸附作用, 吸附的驱动力是氢键、静电以及疏水相互作用三种作用的协同, 其中主驱动力是静电相互作用. 温度升高, 吸附容量减小; 盐度增大, 吸附容量降低; 当pH<8时, 吸附容量随pH升高而增大; 当pH>8时, 吸附容量随pH升高而减小; 当pH=8 时,吸附容量最大.     

原子转移自由基聚合法合成大豆分离蛋白-g-聚甲基丙烯酸2-羟乙酯

通过酰胺化反应在大豆分离蛋白(SPI)表面引入溴原子,合成了大分子引发剂SPI-Br,以CuCl和bpy为催化体系,通过原子转移自由基聚合法(ATRP)合成了大豆分离蛋白-g-聚甲基丙烯酸2-羟乙酯(SPI-g-PHEMA).用FTIR1、3C-NMR、GPC对大分子引发剂、接枝产物和接枝物降解链进行结构表征.结果表明,得到了表面接枝聚甲基丙烯酸2-羟乙酯长链的大豆分离蛋白接枝聚合物,用紫外分光光度计(UV)、荧光分光光度计z、eta电位和透射电镜(TEM)表征了接枝产物的溶液性质和微观形态.     

The effect of polymer adsorption on the wetting properties of partially hydrophobized magnetite

Upon reverse flotation of iron ore, the surface of the iron ore concentrate may become partially hydrophobized due to adsorption of flotation collector, which is facilitated by the calcium ions present in the process water. Hydrophobic areas on the concentrate surface may introduce problems in subsequent pelletization of the concentrate. A possible way to restore the wettability of the surface could be by modifying the surface with a hydrophilic polymer. The effect of hydrophilic polymers of different types, viz. cationic, anionic, and non-ionic, on the wettability of the magnetite surface after adsorption of a surfactant was investigated. Although all the polymers could adsorb on magnetite at pH 8.5, the contact angle measurements revealed that only anionic ammonium polyacrylate could decrease the contact angle of synthetic magnetite after surfactant adsorption to a level close to that of as-synthesized magnetite. Such effect was probably achieved due to shielding of the hydrophobic surfactant chains from the aqueous phase by hydrophilic polyacrylate molecules. The fact that polyacrylate adsorption on magnetite occurred via calcium ions makes polyacrylate suitable for application in calcium-rich process water. The results presented in this work illustrate that ammonium polyacrylate could be successfully used to improve the wettability of magnetite after adsorption of surfactants.     

Fabrication of flexible gold films with periodic sub-micrometer roughness and their wettability control by modification of SAM

Flexible honeycomb gold films supported by polymer sheets are fabricated by using polystyrene particle monolayers. The surfaces of the flexible gold films are covered with self-assembled monolayers (SAMs) of hydrophobic or hydrophilic thiol compounds, and the wettability of the modified surface is evaluated by measurements of the contact angles of water droplets. The contact angle of the film covered with hydrophobic SAM is ca. 150 degrees, which is greater than the value of 112 degrees for a flat gold surface, while the values for hydrophilic SAM are below 10 degrees.     

Buried, covalently attached RGD peptide motifs in poly(methacrylic acid) brush layers: the effect of brush structure on cell adhesion

Iniferter-mediated surface-initiated photopolymerization was used to graft poly(methacrylic acid) (PMAA) brush layers obtained from surface-attached iniferters in self-assembled monolayers to a gold surface. The tethered chains were subsequently functionalized with the cell-adhesive arginine-glycine-aspartic acid (RGD) motif. The modified brushes were extended by reinitiating the polymerization to obtain an additional layer of PMAA, thereby burying the peptide-functionalized segments inside the brush structure. Contact angle measurements and Fourier transform infrared (FTIR) spectroscopy were employed to characterize the wettability and the chemical properties of these platforms. Time of flight secondary ion mass spectroscopy (TOF-SIMS) measurements were performed to monitor the chemical composition of the polymer layer as a function of the distance to the gold surface and obtain information concerning the depth of the RGD motifs inside the brush structure. The brush thickness was evaluated as a function of the polymerization (i.e., UV-irradiation) time with atomic force microscopy (AFM) and ellipsometry. Cell adhesion tests employing human osteoblasts were performed on substrates with the RGD peptides exposed at the surface as well as covered by a PMAA top brush layer. Immunofluorescence studies demonstrated a variation of the cell morphology as a function of the position of the peptide units along the grafted chains.     

High surface water interaction in superhydrophobic nanostructured silicon surfaces: convergence between nanoscopic and macroscopic scale phenomena

In the present work, we investigate wetting phenomena on freshly prepared nanostructured porous silicon (nPS) with tunable properties. Surface roughness and porosity of nPS can be tailored by controlling fabrication current density in the range 40-120 mA/cm(2). The length scale of the characteristic surface structures that compose nPS allows the application of thermodynamic wettability approaches. The high interaction energy between water and surface is determined by measuring water contact angle (WCA) hysteresis, which reveals Wenzel wetting regime. Moreover, the morphological analysis of the surfaces by atomic force microscopy allows predicting WCA from a semiempiric model adapted to this material.     

A novel method to introduce durable hydrophilicity onto hydrophobic polymer surface by plasma treatment

We have examined a novel method to fabricate a durable hydrophilic surface of hydrophobic polymeric materials modified by plasma treatment. The method involves a trapping of maleic anhydride-containing polymer onto poly(ethylene naphthalate) (PEN) by a plasma-induced crosslinking reaction of PEN followed by hydrolysis of maleic anhydride moiety to generate hydrophilic carboxyl groups on the PEN surface. In fact, the PEN film surface thus treated has shown an effective stability of wettability based on the water contact angle measurement.     

一步法合成聚苯胺/十二烷基苯磺酸钠超疏水复合材料

在阴离子表面活性剂十二烷基苯磺酸钠(SDBS)体系中,采用一步法制得聚苯胺/SDBS超疏水复合材料.利用场发射扫描电子显微镜(FESEM)观察产物形貌并测定其元素组成.通过傅里叶变换红外光谱仪、紫外-可见光谱仪、X射线衍射等对其结构进行表征,用视频接触角测量仪测定材料的亲疏水性.考察SDBS浓度和溶液酸度对产物形貌及疏水性能的影响,探讨疏水机理.结果表明:在pH=1-9,SDBS浓度大于0.016 mol?L-1条件下,所制备复合材料的水接触角大于150°,SDBS掺杂使得苯胺单体的转化率高达98%.两亲分子SDBS亲水磺酸基与聚苯胺主链上的亚胺基不仅存在静电引力,而且能形成磺酰胺键,聚苯胺主链间又以氢键相互连接,SDBS分子的疏水烃基有序排列朝向聚苯胺主链外侧,从而组装形成具有微纳结构的聚苯胺/SDBS超疏水复合材料.本文结果有利于更好地理解聚苯胺/SDBS超疏水性复合材料的形成机理,对超疏水材料的设计提供新思路.     

Water resistance improvement of paper by superhydrophobic modification with microsized CaCO3 and fatty acid coating

Nanoscaled surface roughness with a hydrophobically modified surface has been widely used for preparation of superhydrophobic materials. However, the complicated procedure, high cost and harmful compounds used in most superhydrophobic surface modifications limited their applications. This research aims at fabricating superhydrophobic cellulosic or semi-superhydrophobic papers with low cost and nontoxic materials. Commercial PCC (precipitated calcium carbonate) particles, hydrophobic stearic acid and polymer latex particles were used for surface roughness control, surface hydrophobic modification agent, and polymer binder, respectively. A simple coating or dipping method was used to produce high contact angle and high water resistance papers. It was found that the surface pretreatment of PCC with fatty acid salt prior mixing with polymer binder plays important role for improving the water contact angle (WCA). The combination of surface coating with dipping treatment will further increase the water contact angle and water resistance of the paper. A WCA near 150° over modified paper surface has been achieved. At the same degree of water resistance, the total cost of the paper can be significantly reduced by our method.     

Adsorption of hydrophobically modified poly(acrylamide)-co-(acrylic acid) on an amino-functionalized surface and its response to the external solvent environment

The adsorption of hydrophobically modified poly(acrylamide)-co-(acrylic acid), designated as PAM-C14-AA (x%) (x = 5, 10, 20, representing the mole percent of acrylic acid units), at an amino-functionalized silicon surface was studied. The effect of polymer charge density was determined by varying the acrylic acid content of the copolymer. Characteristics of the adsorbed layer were evaluated by atomic force microscopy, water contact angle measurements, and X-ray photoelectron spectroscopy. The results showed that the adsorption behavior of PAM-C14-AA (x%) is influenced by the balance among the electrostatic, hydrogen-bonding, and hydrophobic interactions. Adjusting the solution pH and polymer charge density significantly affects the morphology and thickness of the adsorbed film. Furthermore, it was found that the adsorbed PAM-C14-AA undergoes conformational rearrangements when the surface is wetted by selected organic solvents. The resultant morphology and wettability of the films indicated that the different affinities of the solvents for different segments of PAM-C14-AA (x%) can be considered to be the possible cause of the conformational rearrangements of adsorbed polymer.     

水溶性聚合物和两亲聚合物——10.两亲聚合物PAMC_(16)S的自组装有序膜

用自组装技术在金(纯金和经阳极氧化的金)表面上获得了新型两亲聚合物PAMC_(16)S的有序膜。用接触角测试,XPS谱和电化学分析等方法对自组装膜进行了表征。根据膜表面的润湿性,金表面的自组装膜是疏水的,亲水的磺酸基团连于金表面,而疏水的碳氢链从表面伸展出。XPS实验结果支持金表面上单层膜的疏水结构。聚合物单层膜复盖的金电极起到含有针孔缺陷的阻膈型电极的作用。单层膜在法拉第反应中显示很强的吸附稳定性,说明聚合物LB膜在潜在应用中有其特有的特点。