Camptothecin@HMSNs/thermosensitive hydrogel composite for applications in preventing local breast cancer recurrence

The CPT was loaded into the HMSNs with the high loading capacity. Then the CPT@HMSNs were loaded into the PLEL thermosensitive hydrogels for local therapy to prevent the recurrence of breast cancer after the tumor was resected.     

海藻酸壳聚糖可塑性支架材料的制备及表征

利用海藻酸钠和壳聚糖2种原料, 采用阴阳离子静电复合原理, 通过滴注法层层自组装成可搭载药物的缓释微球, 再按一定比例与海藻酸钠-壳聚糖溶液混合制成缓释微球型支架材料, 将缓释微球结构嵌入疏松多孔海绵状结构中. 研究了缓释微球的组分比对缓释微球型支架材料的孔隙率、 收缩率、 亲水性及降解性能的影响; 扫描电子显微镜照片显示, 微球结构相对完整, 多孔海绵状结构孔径为140~200 μm; 支架浸出液细胞毒性检测实验组对照组未见差异. 缓释微球体积所占比例即组分比为10%的缓释微球型支架材料孔隙率最高为68.2%~70.8%, 亲水性最好, 收缩率最低为4.4%~5.2%; 支架降解速率随缓释微球组分比升高而减慢, 组分比为20%的缓释微球型支架材料综合性能更优; 缓释微球型支架材料冻干成型前为液态, 具有良好可塑性. 缓释微球型支架材料为缓释系统与多孔支架材料有机结合提供了新思路.     

Synthesis of SiO2@SiO2 core-shell microspheres using urea-formaldehyde polymers as the templates for fast separation of small solutes and proteins

The monodisperse superficially porous core-shell silica microspheres (CSSMs) with controllable shell thickness and pore size were synthesized by an improved polymerization-induced colloid aggregation (PICA) approach for fast separation of small solutes and proteins.     

Stimuli-responsive multilayer chitosan hollow microspheres via layer-by-layer assembly

Novel stimuli-responsive multilayer chitosan hollow microspheres with chitosan as the unique component have been fabricated by the sequential layer-by-layer electrostatic assembly technique from the sacrificial templates (polystyrene sulfonate, PSS) with chitosan (CS) as the polycation and carboxymethyl chitosan (CMCS) as the polyanion, respectively. Their hollow structure was confirmed by the TEM analysis. The DLS analysis indicated that the multilayer chitosan microcapsules were pH and ionic strength dual-responsive. Due to the biocompatibility of the single component chitosan used, the multilayer chitosan microcapsules are expected to be used in the controlled release of drugs.     

空心微球表面定向生长TiO2纳米棒及其光催化性能研究

通过表面溶胶-凝胶处理和水热反应成功制备出包覆有二氧化钛纳米棒的复合空心微球. 用扫描电子显微镜(SEM)和X射线衍射仪(XRD)等表征了所得产品, 探索了水热反应时间、煅烧时间对产物形貌和结构的调控作用, 并对产物光催化降解亚甲基蓝进行了研究. 结果表明, 所制备的表面包覆有二氧化钛纳米棒的复合空心微球在紫外光照射下可将亚甲基蓝完全降解. 该材料质轻, 可浮于水面, 有望成为一种新型光催化剂, 应用于治理水体表面的大面积污染.     

A dual microsphere based on PLGA and chitosan for delivering the oligopeptide derived from BMP-2

In this paper, we document the process and findings of preparing dual poly (lactide-co-glycolide)/chitosan microspheres (PLGA/CS MSs) for osteoinductive oligopeptide derived from BMP-2 (abbreviated as Peptide-24). Through adjusting the amount of Peptide-24, three kinds of PLGA/CS MSs were successfully constructed in twice encapsulations. We studied the morphology, size distribution and loading efficiency of the PLGA/CS MSs. We also focused on the pH change of the environment and the molecular weight of the matrix during the degradation process of PLGA/CS MSs. More specifically, the release of Peptide-24 from three kinds of PLGA/CS MSs was monitored in PBS at 37 °C and pH 7.4. The structural stability of the released Peptide-24 was detected by Far-UV circular dichroism and MALDI-TOF-MS analysis. The mean sizes of the three kinds of PLGA/CS MSs are 47.5, 63.0 and 89.1 μm; and their drug-loading rates are 2.61, 3.21 and 2.21%, respectively. Comparing with Chitosan microspheres (abbreviated as CS MSs), the PLGA/CS MSs have excellent release curves with zero-order kinetics and controllable model. The incubation solution of PLGA/CS MSs avoided producing acid environment as poly (lactide-co-glycolide) microspheres (PLGA MSs) did, which was explained by analyzing the molecular weight of the matrix. The released oligopeptide kept its original structure and relative molecular weight throughout the procedures of encapsulation, storage and release. This indicates its structure stability. Thus, we conclude that dual PLGA/CS MSs is a promising vehicle that is suitable for the delivery of bioactive factors.     

The melt hollow fiber spinning process: steady-state behavior,sensitivity and stability

The rheology of the melt hollow fiber spinning process is examined in the thin filament limit. The resulting thin filament equations are also applicable to single-phase and two-phase extensional flows. Using a novel numerical solution procedure, the sensitivity of the fiber spinning equations to material property and process variations is investigated. Fiber geometry is directly controlled by the mass flowrates of the core and clad fluids while the spinline tension is most strongly influenced by clad viscosity. A maximum can occur in the clad stress profile if a core liquid is used and the ratio of core to clad viscosity increases greatly with temperature. Isothermal spinning of high viscosity clad liquids with either a core gas or liquid is unstable for draw ratios greater than 20.2 as found for solid fibers.     

Selective separation of trace nickel(II) and gold(I) ions via hollow fiber supported liquid membrane enhanced by synergistic extractants D2EHPA/TBP

This work presents the selective and simultaneous separation of nickel (Ni²⁺) and gold ([Au(CN)₂]⁻) ions, in trace amounts, from alkaline solution via hollow fiber supported liquid membrane (HFSLM) technique. HFSLM is challengingly carried out in real rinse wastewater generated by the ENIG plating process. The influence of various chemical parameters, including the type of extractant and their concentrations, molar ratios of mixed extractant as well as type of strippant, are also studied. The organophosphorus extractant mixtures of D2EHPA and TBP provide a synergistic effect for target Ni²⁺ ions but has an antagonistic effect as regards the extraction of non-target [Au(CN)₂]⁻ ions. Compared to other inorganic acids, HCl is seen to be the most suitable strippant for the selective stripping. Results demonstrate that percentages of extraction and stripping of Ni²⁺ ions achieved 85.7 and 83.2%, respectively. In contrast, percentages of extraction and stripping of non-target [Au(CN)₂]⁻ ions attained 15.6 and 1.94%.     

Investigation on sound absorption properties of kapok fibers

Sound absorption properties of natural kapok fibers have been investigated. Kapok fibrous assemblies with different bulk density, thickness, fiber length and orientation were manufactured, and their acoustical performances were evaluated by using an impedance tube instrument. Results show that the kapok fiber has excellent acoustical damping performance due to its natural hollow structure, and the sound absorption coefficients of kapok fibrous assemblies are significantly affected by the bulk density, thickness and arrangement of kapok fibers but less dependent on the fiber length. Compared with assemblies of commercial glass wool and degreasing cotton fibers, the kapok fiber assemblies with the same thickness but much smaller bulk density may have the similar sound absorption coefficients. Theoretical modelling of the acoustical damping performance of kapok fibers shows a good agreement with the experimental data. All the results demonstrate that kapok fiber is a promising light and environment-friendly sound absorption material.     

Facile Assembly of Graphene on Anion Exchange Resin Microspheres for Electrochemical Sensing and Biosensing

Graphene sheets were assembled on anion exchange resin (AER) microspheres based on the electrostatic interactions between graphene oxide and AER and subsequent chemical reduction. The prepared graphene‐coated AER microspheres were characterized by scanning electron microscopy, X‐ray diffraction, and Fourier transform infrared spectroscopy. They were then embedded in the bores of pipette tips to fabricate disposable electrodes for electrochemical sensing. The workability and performance of the novel electrodes were examined by analyzing the electrochemical behavior of the electrodes for the sensing of ascorbic acid, dopamine, uric acid, acetaminophen, aniline, and glucose by cyclic voltammetry and amperometry. The advantages of the electrodes include ease of fabrication, low cost, pronounced electrocatalytic activity, and rapid response. Thus, they hold great promise for a wide range of applications.