浸渍吸附法制备Ag-SiO2纳米复合抗菌材料的条件优化

运用浸渍吸附法制备了纳米级单分散Ag-SiO2无机复合抗菌材料,结合响应曲面方法,考察了Ag+浓度、反应时间和氨水添加量等因素对材料抗菌率的影响,考虑到材料制备成本,变色控制等多方面因素,选取了最优制备条件,实验结果表明:Ag+浓度为5.9×10-4 mol·L-1,氨水添加量为4.1 mL,反应时间为5.2 h时,材料有最佳的经济效益和抗菌性能,抗菌率达到91.7;.通过TEM、XRD、ICP和BET方法对材料的结构进行表征,结果表明:载体SiO2微球为无定形态;Ag-SiO2抗菌材料微球具有良好的分散性和稳定性,粒径尺寸均匀;Ag+成功负载于SiO2微球表面,负载量为8.10 mg·kg-1.     

新型共价交联纳米胶囊的构筑、调控与功能

利用共价自组装的方法，将刚性组装基元与柔性链在一定条件下进行横向交联，可以方便地制备出单层高分子纳米胶囊.相比于传统的非共价超分子囊泡，这种新型的共价纳米胶囊具有结构稳定、尺度可控且分散性优异等诸多优点.因此，如何利用化学合成的手段来制备新型的纳米胶囊，并进一步实现对其结构调控和性能的探究具有十分重要的意义.针对这些问题，分别发展了功能化的柱[5]芳烃、四苯乙烯、卟啉、三嗪、苯硼酸酐等不同类型构筑基元，并使之与两端具有活性位点的柔性烷基链在适当的溶剂中进行聚合反应，最终获得了一系列的共价纳米胶囊.通过对其结构的修饰和调控，发现这些功能化的高分子纳米胶囊在光捕获、人工酶、抗菌材料以及药物载体等领域具有诸多潜在应用价值.未来，新型共价高分子纳米胶囊的开发、功能化以及应用有望得到进一步的拓展.     

单晶硅晶格间距的测量技术进展及应用

单晶硅晶格间距是许多重要物理常数测量的基础。本文介绍了硅晶格间距测量技术的发展历程,包括X射线干涉仪直接测量和晶格比较仪间接测量两种方法,以及影响测量结果不确定度的关键因素。得益于晶格间距测量的进展,在纳米尺度,硅晶格间距被国际计量局(BIPM)批准成为新的米定义复现形式。最后介绍了硅晶格在计量学中的应用,以及基于硅晶格实现纳米几何量测量的溯源体系的研究趋势。     

MCNOs/CdS双效光催化剂的制备及其性能研究

水热合成法制备了不同磁性纳米洋葱碳(MCNOs)负载量(0%、1%、3%、5%)的MCNOs/CdS光催化剂。并通过X射线衍射分析(XRD)、扫描电子显微镜(SEM)、傅里叶红外光谱(FT-IR)、X射线光电子能谱(XPS)、紫外可见光光谱(UV-Vis)、磁滞回线测定仪(VSM)对其进行表征,探究了MCNOs负载比例对催化剂在可见光下降解RhB性能及机理的影响。结果表明,MCNOs能有效提高CdS的光催化效果,复合3%MCNOs后降解率为96%,与纯CdS相比降解率提高了30%,磁性分析表明,其具有良好的顺磁性并能实现催化剂的有效回收。MCNOs/CdS在可见光下催化降解RhB的一级反应动力学直线有较好的拟合度,表明制备的催化剂有较好的催化活性。     

γ-Fe2O3纳米颗粒尺寸及碳化气氛对碳化过程的影响

采用油酸铁热分解法制备出不同尺寸（4-19 nm）的γ-Fe₂O₃纳米颗粒，在350℃下，于5%CO/He、 5%CO/10%H₂/He和5%CO/20%H₂/He的三种气氛中，使用原位XRD反应装置研究了γ-Fe₂O₃纳米颗粒的碳化过程与物相变化规律，同时结合Raman、CO-TPR和TEM等手段对样品进行了表征。结果表明，γ-Fe₂O₃纳米颗粒完全碳化后会形成稳定比例的χ-Fe5C2和θ-Fe₃C的混合相；在相同碳化气氛下，随γ-Fe₂O₃颗粒尺寸增大完全碳化所需时间缩短，尺寸较小的γ-Fe₂O₃颗粒表面残留炭较多，会抑制碳化反应进程，碳化相中θ-Fe₃C相对含量随γ-Fe₂O₃纳米颗粒尺寸增大而增高；相同尺寸的γ-Fe₂     

Influence of staff number and internal constellation on surgical site infection in an operating room

Prediction of bacteria-carrying particle （BCP） dispersion and particle distribution released from staffmem- bers in an operating room （OR） is very important for creating and sustaining a safe indoor environment. Postoperative wound infections cause significant morbidity and mortality, and contribute to increased hospitalization time. Increasing the number of personnel within the OR disrupts the ventilation airflow pattern and causes enhanced contamination risk in the area of an open wound. Whether the amount of staffwithin the OR influences the BCP distribution in the surgical zone has rarely been investigated. This study was conducted to explore the influence of the number of personnel in the OR on the airflow field and the BCP distribution. This was performed by applying a numerical calculation to map the airflow field and Lagrangian particle tracking （LPT） for the BCP phase. The results are reported both for active sampling and passive monitoring approaches. Not surprisingly, a growing trend in the BCP concentration （cfu/ms） was observed as the amount of staff in the OR increased. Passive sampling shows unpredictable results due to the sedimentation rate, especially for small particles （5-10 i~m）. Risk factors for surgical site infections （SSls） must be well understood to develop more effective prevention programs.     

Application of DEM modified with enlarged particle model to simulation of bead motion in a bead mill

We applied the discrete element method （DEM） of simulation modified by an enlarged particle model to simulate bead motion in a large bead mill. The stainless-steel bead mill has inner diameter of 102 mm and mill length of 198 mm. The bead diameter and filling ratio were fixed respectively at 0.5 mm and 85%. The agitator rotational speed was changed from 1863 to 3261 rpm. The bead motion was monitored experimentally using a high-speed video camera through a transparent mill body. For the simulation, enlarged particle sizes were set as 3-6 mm in diameter. With the DEM modified by the enlarged particle model, the motion of enlarged particles in a mill was simulated.The velocity data of the simulated enlarged particles were compared with those obtained in the experiment. The simulated velocity of the enlarged particles depends on the virtual frictional coefficient in the DEM model. The optimized value of the virtual frictional coefficient can be determined by considering the accumulated mean value. Results show that the velocity of the enlarged particles simulated increases with an increase in the optimum virtual frictional coefficient, but the simulated velocity agrees well with that determined experimentally by optimizing the virtual frictional coefficient in the simulation. The computing time in the simulation decreases with increased particle size.     

CRISPR/Cas9基因编辑非病毒递送系统

规律间隔成簇短回文重复序列及相关蛋白9(CRISPR/Cas9)系统的基因编辑技术为哺乳细胞基因组的精准修饰与编辑研究提供了高效、快捷的工具,但其化学生物学应用依然面临着CRISPR基因编辑工具Cas9蛋白和g RNA的细胞及活体递送等问题.近年来,研究人员通过开发多种非病毒递送载体,实现了编码CRISPR/Cas9基因编辑工具的DNA和信使RNA(mRNA)以及Cas9/gRNA核糖核蛋白(RNP)复合物的递送,并应用于靶基因的化学修饰与编辑调控.本文主要概述了近期CRISPR/Cas9基因编辑递送的研究进展,并对其化学生物学应用前景进行了展望.