Micromechanical modeling of the elasto-viscoplastic behavior of semi-crystalline polymers

A micromechanically based constitutive model for the elasto-viscoplastic deformation and texture evolution of semi-crystalline polymers is developed. The model idealizes the microstructure to consist of an aggregate of two-phase layered composite inclusions. A new framework for the composite inclusion model is formulated to facilitate the use of finite deformation elasto-viscoplastic constitutive models for each constituent phase. The crystalline lamellae are modeled as anisotropic elastic with plastic flow occurring via crystallographic slip. The amorphous phase is modeled as isotropic elastic with plastic flow being a rate-dependent process with strain hardening resulting from molecular orientation. The volume-averaged deformation and stress within the inclusions are related to the macroscopic fields by a hybrid interaction model. The uniaxial compression of initially isotropic high density polyethylene (HDPE) is taken as a case study. The ability of the model to capture the elasto-plastic stress-strain behavior of HDPE during monotonic and cyclic loading, the evolution of anisotropy, and the effect of crystallinity on initial modulus, yield stress, post-yield behavior and unloading-reloading cycles are presented.     

大粒径介孔氧化硅微球的优化合成及表征

以非离子型嵌段共聚物为模板剂、正硅酸乙酯为硅源,制备了一种比表面积为712m2·g-1、孔径6.93nm、孔容1.06cm3·g-1、粒径10μm的介孔SBA-15微球,采用扫描电镜考察了各种合成条件对介孔氧化硅微球形貌的影响,对SBA-15介孔微球的合成条件优化和形成机理进行了研究和探讨。结果表明:介孔氧化硅微球的生长可以看作一个由微小溶胶粒子发生渐进聚沉、成长为较大溶胶粒子的过程;共表面活性剂和无机盐的引入对介孔微球的形成具有辅助作用;合成体系的酸度和晶化阶段之前的陈化条件是介孔微球形成的关键所在。在共聚物的盐酸溶液(1mol·L-1)中,不添加共表面活性剂和无机盐,仅控制陈化条件于35℃静置24h,100℃水热处理24h,可得到大粒径的介孔SBA-15微球。     

Ionic‐Liquid‐Grafted Rigid Poly(p‐Phenylene) Microspheres: Efficient Heterogeneous Media for Metal Scavenging and Catalysis

Novel guanidinium ionic liquid‐grafted rigid poly(p‐phenylene) (PPPIL) microspheres have been developed for metal scavenging and catalysis. The noble‐metal nanoparticles supported on the microspheres surface can be used as efficient heterogeneous catalysts. The combination of nanoparticles and ionic liquid fragments on the microsphere surfaces enhance the activity and durability of the catalyst. The PPPIL ? Pd⁰ catalyst has been tested in the Suzuki cross‐coupling reaction, and exhibits much higher catalytic activity than Pd catalysts supported on porous polymer matrices. The PPPIL ? Pd⁰ catalyst can be recycled at least for nine runs without any significant loss of activity. The present approach may, therefore, have potential applications in transition‐metal‐nanocatalyzed reactions.     

阿司匹林-蒙脱土-壳聚糖缓释微球的制备及其体外释放性能

利用溶液法预先制备壳聚糖(Cs)-蒙脱土(MMT)复合材料(Cs-MMT),以Cs-MMT、Cs为原料,采用反相悬浮聚合法制得一种新型药物缓释体系阿司匹林-蒙脱土-壳聚糖载药微球(Asp-MMT-Cs)。采用FT-IR、SEM表征了Cs-MMT和Asp-MMT-Cs载药微球的结构及形态;设计正交实验优化了Asp-MMT-Cs载药微球的制备工艺;通过体外释放实验探讨了载药微球在不同模拟释放液中的释药规律。结果表明:所得微球球形度好,粒径分布较均匀;最优工艺制得的载药微球平均粒径为81.20μm,载药量为9.61%,包封率为76.78%。该缓释体系具有pH敏感性,更倾向于在pH较高的磷酸盐缓冲溶液中释放。     

Amperometric NADH Biosensor Based on Magnetic Chitosan Microspheres/Poly(thionine) Modified Glassy Carbon Electrode

Novel magnetic chitosan‐coated microspheres (MCMSs) were prepared by modifying carbon‐coated iron magnetic nanoparticles with chitosan. An amperometric dihydronicotinamide adenine dinucleotide (NADH) sensor was constructed based on immobilizing MCMS on the surface of a polythionine (PTH) modified glassy carbon electrode (GCE). The fabrication of MCMS/PTH film and its electrocatalytic effect on electrochemical oxidation of NADH were investigated by electrochemical impedance spectroscopy (EIS) and voltammetric methods. It was found that the resulting integrated films of PTH and MCMS exhibit high electrocatalytic response to NADH by significantly reduce its overpotential. The effects of the experimental variables on the amperometric determination of NADH such as solution pH and working potential were investigated for optimum analytical performance. This electrochemical sensor had a fast response to NADH which was less than 10 s. Linear response ranges of 2–10 μM and 10–100 μM and a detection limit of 0.51 μM (S/N=3) were obtained under the optimum conditions. Moreover, the selectivity, stability and reproducibility of this biosensor was evaluated with satisfactory results.     

Polymer supported calixarene derivative useful for solid-phase synthesis application

A calix[4]arene derivative has been anchored to carboxyl CPG and TentaGel supports by an easily cleavable ester bond and DMT groups allow a simple loading evaluation via UV-vis spectroscopy. The loading of the calixarene on TentaGel resin has also been estimated by HR-MAS NMR experiments. The potential of the polymer supported calixarenes (9 and 10) in solid phase synthesis has been tested by condensation of four thymine nucleotide units onto the upper rim of the calix[4]arene skeleton.     

Preparation and characterization of molecularly imprinted microspheres for dibutyl phthalate recognition in aqueous environment

Molecularly imprinted microspheres (MIMs) were prepared by suspension polymerization for the binding and recognition of dibutyl phthalate (DBP). DBP was used as the template molecule, methacrylic acid as the functional monomer, ethylene dimethacrylate (EDMA) as the linking agent, PVA as the dispersing agent, and Span 60 as the surfactant. The MIMs were characterized with electron microscope scanning and rebinding experiments. The Scatchard plot revealed that the template‐polymer system has a two‐site binding behavior with dissociation constants of 4.05 and 0.515 mmol/L. The MIMs exhibited the highest selective rebinding to DBP at 736.85 μg/g. The recoveries of the MIM‐SPE column for DBP extraction was 94.75–101.9% with the RSD of 1.5–7.3%, indicating the feasibility of the prepared MIMs for DBP extraction. Finally, the method developed was used to analyze the trace levels of phthalate in aqueous environment samples.     

Highly selective GC stationary phases consisting of binary mixtures of polymeric ionic liquids

GC stationary phases composed of binary mixtures of two polymeric ionic liquids (PILs), namely, poly(1‐vinyl‐3‐hexylimidazolium) bis[(trifluoromethyl)sulfonyl]imide (poly(ViHIm‐NTf₂))/poly(1‐vinyl‐3‐hexylimidazolium) chloride (poly(ViHIm‐Cl)) and poly(1‐vinyl‐3‐hexadecylimidazolium) bis[(trifluoromethyl)sulfonyl]imide (poly(ViHDIm‐NTf₂))/poly(1‐vinyl‐3‐hexadecylimidazolium) chloride (poly(ViHDIm‐Cl)), were evaluated in terms of their on‐set bleed temperature and separation selectivity. A total of six neat or binary PIL stationary phases were characterized using the solvation parameter model to investigate the effects of the polymeric cation and anion and PIL composition on the system constants of the resulting stationary phases. The hydrogen bond basicity of the mixed poly(ViHIm‐NTf₂)/poly(ViHIm‐Cl) stationary phases was enriched linearly with the increase in the poly(ViHIm‐Cl) content. Results revealed that tuning the composition of the stationary phase allowed for fine control of the retention factors and separation selectivity for alcohols and carboxylic acids as well as selected ketones, aldehydes, and aromatic compounds. A reversal of elution order was observed for particular classes of analytes when the weight percentage of the chloride‐based PIL was increased.     

花状微球NiO/CeO_2催化剂上乙醇水蒸气重整制氢研究

用水热法制备微米尺寸CeO2花状微球粉体,并通过浸渍/热分解法在该粉体上担载纳米尺寸的NiO颗粒,制得催化剂NiO/CeO2。对催化剂进行了XRD、SEM、XES和BET物性表征。经固定床反应器对催化剂的催化性能进行测试。装载1.0 g催化剂,液体处理量0.05 mL/min。结果表明,该方法合成的催化剂NiO/CeO2对低温乙醇水蒸气重整反应表现出较高的活性和稳定性。同时通过微量Cr、Zn、Cu的加入在低温区抑制了CO、CH4的生成,提高了H2的产率和催化剂的抗积炭能力。该催化剂连续稳定性测试达到2 000 h;进行反复起动稳定性测试12次后,未表现出失活特征。     

羟基磷灰石/聚乳酸微粒复合生物支架的体外细胞相容性评价

利用溶液共混法以及溶剂挥发法制备了羟基磷灰石(Nano-HA)/聚乳酸(PLA)微粒,再粘结微粒加工成三维多孔Nano-HA/PLA微粒复合生物支架。借助相差显微镜、扫描电子显微镜和MTT法检测了鼠骨髓基质细胞(BMSCs)在该支架材料上的生长情况,通过细胞形态学观察和细胞增殖情况评价了该复合生物支架材料的生物相容性。结果表明,SEM观察到支架材料上培养细胞4d后,细胞主要附着、铺展在支架的低洼处或孔洞处表面,并向孔洞深部沿壁生长;在支架材料上培养细胞8d后,细胞多为梭形形态,并有许多生长角,直接贴附于支架的微粒表面,开始连片生长,有明显的增值,各组没有变形、坏死现象。支架材料上培养细胞2,3,4,5,6和8d的MTT检测表明,各实验组RGR均达到100%以上,细胞毒性为0级;细胞在支架材料上的生长曲线显示,实验组细胞活力比对照组高26%。因此,该Nano-HA/PLA微粒复合生物支架没有细胞毒性,并对细胞有良好的粘附和增殖能力,为较具潜力的骨修复材料。