亲水/反相二维制备液相色谱法分离纯化络石藤中的化学成分

建立了亲水/反相二维制备液相色谱(Pre-2D-HILIC/RPLC)分离纯化络石藤中化学成分的分析方法。络石藤药材经醇提、活性炭脱色后用反相固相萃取柱除去色素和强极性物质,最终得到干燥的浅黄色粉末。一维亲水色谱选择Click XIon色谱柱(250 mm×20 mm,10μm)作为固定相,水和乙腈作为流动相,进行梯度洗脱,以紫外触发模式收集馏分,共得到15个组分。二维反相色谱选择C18色谱柱(250 mm×20 mm,5μm)作为固定相,水和乙腈作为流动相,进行梯度洗脱,最终得到14个高纯度化合物,并通过质谱和核磁共振对其进行确认。实验结果表明,该法具有良好的正交选择性,可以有效提高分离度和峰容量,对于分离络石藤等复杂样品具有重要意义。     

双机头电脑刺绣机横梁的模态分析

以GY902A型电脑刺绣机的主横梁作为研究对象，分别运用实验测试和有限元模拟方法分析了电脑刺绣机横梁弯曲振动的固有频率，并利用经过验证的有限元模型，在计算机上作了结构改进仿真设计，实现了在不改变电脑刺绣机重量的前提下，电脑刺绣机横梁的固有频率提高22％，使电脑刺绣机更不易发生共振．     

脉冲直流等离子体增强化学气相沉积Ti—Si—N纳米薄膜的摩擦磨损特性

采用工业型脉冲等离子体增强化学气相沉积设备，通过调节氯化物混合比例控制薄膜成分，在高速钢基材表面于550℃下沉积由纳米晶TiN和纳米非晶Si3N4组成的Ti—Si—N复合薄膜；采用扫描电子显微镜、透射电子显微镜、X射线衍射仪及X射线光电子能谱仪分析了薄膜的结构、组成和化学状态；采用球-盘高温摩擦磨损试验机考察了薄膜同GCrl5钢对摩时的摩擦磨损性能．结果表明：薄膜的Si含量在0％～35％范围内变化，随着Si含量增大，薄膜沉积速率增大，但薄膜由致密形态向大颗粒疏松态过渡；薄膜的晶粒尺寸为7～50nm；Ti—Si—N薄膜的显微硬度高于TiN的硬度，最高可达60GPa；引入少量Si可以显著改善TiN薄膜的抗磨性能，但薄膜的摩擦系数较高(室温下约0．8、400℃下约0．7)；随着Si含量的增加，Ti—Si—N薄膜的耐磨性能有所降低，其原因在于引入导电性较差的Si元素使得薄膜的组织变得疏松．     

Effect of surface oxygen vacancy defects on the performance of ZnO quantum dots ultraviolet photodetector

The slower response speed is the main problem in the application of ZnO quantum dots (QDs) photodetector, which has been commonly attributed to the presence of excess oxygen vacancy defects and oxygen adsorption/desorption processes. However, the detailed mechanism is still not very clear. Herein, the properties of ZnO QDs and their photodetectors with different amounts of oxygen vacancy (V_O) defects controlled by hydrogen peroxide (H₂O₂) solution treatment have been investigated. After H₂O₂ solution treatment, V_O concentration of ZnO QDs decreased. The H₂O₂ solution-treated device has a higher photocurrent and a lower dark current. Meanwhile, with the increase in V_O concentration of ZnO QDs, the response speed of the device has been improved due to the increase of oxygen adsorption/desorption rate. More interestingly, the response speed of the device became less sensitive to temperature and oxygen concentration with the increase of V_O defects. The findings in this work clarify that the surface V_O defects of ZnO QDs could enhance the photoresponse speed, which is helpful for sensor designing.     

Pyrazole-3-carboxylic Acid Manganese Complex: Syntheses and Its highly Efficient Heterogeneous Catalysis for the Epoxidation of Alkenes

One inorganic-organic hybrid manganese complex Mn(Hpca)2(phen)·3 H_2O(1) based on pyrazole-3-carboxylic acid(H2 pca) and phenanthroline(phen) has been synthesized and fully characterized by single-crystal X-ray diffraction(SXRD), powder X-ray diffraction(PXRD), infrared spectroscopy(IR), thermal gravity analysis(TGA) and elemental analyses. Complex 1 crystallizes in the monoclinic system, space group P2_1/c with Z = 4, a = 10.3170(9), b = 13.1061(12), c = 17.6919(15) ?, V = 2272.1(3) ?~3, F(000) = 1052, D_c = 1.495 g/cm~3, μ = 0.635 mm~(-1), the final R = 0.0428 and wR = 0.0853. In the crystal structure, the mononuclear Mn~(2+) center was coordinated by two Hpca-and one phen ligands, and shows a distorted {MnO_2N_4} octahedral coordination geometry. In the supermolecular structure, the independent units are entrained within several hexanuclear chair-like water clusters by the O-H···O and N-H···O hydrogen bonding interactions and finally form the three-dimensional framework. Notably, as a robust heterogeneous catalyst, complex 1 exhibits excellent catalytic performance in the epoxidation of alkenes with peroxyacetic acid as the oxidant(Conv. up to 97.7%, Sele. up to 98.9%). Additionally, the catalyst can be reused without losing its activity after three runs catalytic cycle.     

Research on the ions' axial temperature of a sympathetically-cooled 113Cd+ ion crystal

Molecular dynamics simulation of a sympathetically-cooled ¹¹³Cd⁺ ion crystal system is achieved. Moreover, the relationship between ions' axial temperature and different electric parameters, including radio frequency voltage and end-cap voltage is depicted. Under stable trapping condition, optimum radio frequency voltage, corresponding to minimum temperature and the highest cooling efficiency, is obtained. The temperature is positively correlated with end-cap voltage. The relationship is also confirmed by a sympathetically-cooled ¹¹³Cd⁺ microwave clock. The pseudo-potential model is used to illustrate the relationship and influence mechanism. A reasonable index, indicating ions' temperature, is proposed to quickly estimate the relative ions' temperature. The investigation is helpful for ion crystal investigation, such as spatial configuration manipulation, sympathetic cooling efficiency enhancement, and temporal evolution.     

稀土元素的摩擦学研究发展概况

本文对稀土元素的摩擦学研究发展概况作了综述与讨论,主要涉及的是稀土金属及稀土无机化合物和稀土配合物作为润滑油、脂及润滑涂层的添加剂的摩擦学特性,并对稀土无机化合物的高温润滑特性、稀土金属及其化合物在高温涂层中的应用作了简要讨论,最后还提出了稀土的摩擦学研究中当前值得注意的几个重要课题。     

高速通道压裂裂缝的高导流能力分析及其影响因素研究

高速通道压裂是近年在非常规致密油气资源开采中出现的新工艺, 已在世界范围内推广实施, 并取得了良好的增产效果. 该技术可使支撑剂在人工压裂缝中形成簇团式分布, 从而形成油气高速流动通道, 提高裂缝的导流能力. 但目前对于高速通道压裂裂缝高导流能力的形成机理及其影响因素尚不清楚. 对此, 本文从流体力学理论出发, 首先将高速通道压裂裂缝内形成的支撑剂簇团视为渗流区域, 簇团间的大通道视为自由流动区域; 然后基于Darcy-Brinkman方程建立了裂缝内的流动数学模型, 采用均匀化理论对该流动数学模型进行了尺度升级, 推导得到了高速通道压裂裂缝的渗透率, 揭示了其高导流能力的形成机理; 并以此为基础, 分析了不同支撑剂簇团形状、大小以及分布方式等因素对其导流能力的影响, 可为高速通道压裂工艺参数设计与优化提供基础.     

一类分数阶混沌金融系统的复杂性演化研究

物理学理论与方法在经济与金融领域中的成功应用催生了一个新的科学分支——经济物理学(econophysics).分数阶微积分系统的复杂动力学现象受到了越来越多学者的关注.本文定性地分析一类分数阶混沌金融系统的均衡解的稳定性及Hopf分岔发生的条件,并运用亚当斯-巴什福斯-莫尔顿预估-校正的有限差分法,通过分岔图、相图和时间序列图对该系统的复杂性演化行为进行仿真研究. 关键词： 经济物理学 分数阶微分方程 金融模型 混沌     

阿尔法磁谱仪配电系统的热控系统设计及实验研究

本文以阿尔法磁谱仪中的配电系统为研究对象,阐述了利用热管解决配电系统局部温度过高的热控问题。通过数值模拟,采用体点散热问题的仿生优化方法,获得了高导热性的热管在母板中的人工构造,构建了一种有效的热控系统。数值模拟和实验结果对比验证了数值模拟模型的可靠性和仿生优化方法的可行性,也说明了热管在均温和传热方面的优良作用。