Ultrasound-assisted production and optimization of mini-emulsions in a microfluidic chip in continuous-flow

The use of ultrasound to generate mini-emulsions (50 nm to 1 μm in diameter) and nanoemulsions (mean droplet diameter < 200 nm) is of great relevance in drug delivery, particle synthesis and cosmetic and food industries. Therefore, it is desirable to develop new strategies to obtain new formulations faster and with less reagent consumption. Here, we present a polydimethylsiloxane (PDMS)-based microfluidic device that generates oil-in-water or water-in-oil mini-emulsions in continuous flow employing ultrasound as the driving force. A Langevin piezoelectric attached to the same glass slide as the microdevice provides enough power to create mini-emulsions in a single cycle and without reagents pre-homogenization. By introducing independently four different fluids into the microfluidic platform, it is possible to gradually modify the composition of oil, water and two different surfactants, to determine the most favorable formulation for minimizing droplet diameter and polydispersity, employing less than 500 µL of reagents. It was found that cavitation bubbles are the most important mechanism underlying emulsions formation in the microchannels and that degassing of the aqueous phase before its introduction to the device can be an important factor for reduction of droplet polydispersity. This idea is demonstrated by synthetizing solid polymeric particles with a narrow size distribution starting from a mini-emulsion produced by the device.     

离子交换法制备廉价而高效的可见光驱动CaMg(CO3)2@Ag2CO3微球光催化剂

Ag2CO3是一种典型的银基半导体,可在可见光照射下降解各种有机染料,但制备成本高,光腐蚀严重,稳定性差,难以循环利用等,因而限制了它的实际应用.针对这些问题,目前多数的改进措施是构建异质结,有效的分离光生电子与空穴来提高Ag2CO3的光催化性能.比如典型的异质结光催化剂有TiO2/Ag2CO3,Ag2CO3/ZnO,Ag2O/Ag2CO3和AgX/Ag2CO3等.也有在表面化学沉积,光化学还原Ag等贵金属形成等离子体等方式提高其光催化性能,但是很少通过特殊形貌控制以提高Ag2CO3的光催化性能.最近的研究表明,由于多尺度微球结构催化剂具有高效的光捕能力,同时具有比表面积大、易沉降,良好的物质传输能力和表面的渗透性,因而在液相光催化反应中具有明显的优势.因此,我们期望制备出一个多尺度微球结构Ag2CO3光催化剂.CaMg(CO3)2是一种具有微球结构的半导体,它与Ag2CO3有相同的阴离子结构,但是两者在水溶液中的溶解度相差较大,利用这个特性理论上可以将两个不同的半导体结合在一起,得到一种新型的复合微球.本文以CaMg(CO3)2微球为硬模板,通过简单的离子交换成功制备了粒径约为10μm的CaMg(CO3)2@Ag2CO3微球.利用X射线衍射、N2物理吸附、扫描电镜、傅里叶变换红外光谱和紫外-可见漫反射吸收光谱、光电流等手段对在不同反应时间与温度下制得的CaMg(CO3)2与Ag2CO3的复合物进行了表征.结果表明,在40°C下Ag+与Ca2+、Mg2+离子交换4 h后,得到了一种多尺度CaMg(CO3)2@Ag2CO3复合微球.此时,微球中Ag2CO3的含量约为2.56%.结果表明,这种具有多尺度结构的复合微球能够增强可见光的吸收.电化学阻抗测试和光电流测试表明,CaMg(CO3)2核的存在可以降低光生载流子的迁移阻力,进而促进光生电子与空穴的分离.在光降解酸性橙II的测试中,核壳结构的CaMg(CO3)2@Ag2CO3复合微球表现出了更高的催化活性,而且具有更好的循环使用性能.同时,相对于纯Ag2CO3光催化剂来说,CaMg(CO3)2@Ag2CO3复合微球制备的成本大幅度降低.ESR测试证明了·OH为CaMg(CO3)2@Ag2CO3复合微球光催化过程中的主要活性物质.     

粉煤灰基氧氟沙星分子印迹聚合物的制备及其应用

以工业废料粉煤灰微球为基质,氧氟沙星 (OFL) 为模板分子,采用表面印迹法制备印迹材料MIP。通过紫外光谱法结合理论分析选择实验条件,并对该印迹材料结构、吸附行为进行研究。结果表明,该印迹材料对氧氟沙星具有良好的特异识别性和优良的亲和性。与以硅胶为载体制备的印迹聚合物相比,该材料吸附容量更高和印迹效果更好。将其作为固相萃取填料对鸡产品进行分离富集,与C18柱相比,分离富集效果更好。结合UPLC,对实际样品中氧氟沙星进行分析,回收率为82.0%-96.7%,相对标准偏差低于5.5%,可用于鸡产品中氧氟沙星分离分析。     

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.