多元杂环萘二酰亚胺衍生物的合成及其场效应性能研究

杂环修饰的萘二酰亚胺(NDI)类化合物由于其独特的光电性能被研究人员广泛关注,并应用于有机场效应晶体管(OFETs)、有机太阳能电池中(OSCs)、传感器等领域。但是含有给受体单元的多元杂环萘二酰亚胺衍生物的合成并不容易,本文通过简单高效的方法设计合成了含有氮、硫原子的11个杂环类萘二酰亚胺衍生物,并通过紫外可见吸收光谱、循环伏安曲线和X射线衍射对其进行了物性研究。通过溶液旋涂法,制备了该材料的底栅底接触场效应晶体管器件,在空气中表现出p型半导体性能,当退火温度为140 ℃时性能达到最优,其空穴迁移率为0.2 cm_²?V_^-1?s_^-1。     

基于kinect和unity的虚拟手抓取碰撞检测算法

针对目前碰撞检测算法效率低精度差的问题,提出了一种改进的层次方向包围盒（OBB）算法。首先通过位置关系判断虚拟手是否在物体包围球的邻近区域,然后用OBB和八叉树算法进行详细的碰撞检测,最后利用离散点到虚拟手简化面的矢量计算法实现精确的碰撞检测。实验结果表明,随着三维物体基元数目的增多,这种由粗略到精确递进的检测方式极大的提高了碰撞检测的效率和精度,具有可行性。该算法适用于任何复杂场景中刚体结构模型的碰撞检测,在运行时候不存在滞后情况,显示流畅,而且碰撞检测精度高,完全能够满足虚拟环境实时性和精确性的要求。     

正确使用标准物质/标准样品

介绍了标准物质与标准样品、有证与非有证标准物质/标准样品的区别与联系,国內外有证标准物质/标准样品的判断依据,标准物质/标准样品及其证书的科学使用。对正确理解和使用标准物质/标准样品提出了一些建议。     

基于对苯二甲酸配体的含二维铅无机层的三维无机-有机杂化材料的合成及晶体结构(英文)

以对苯二甲酸作为配体,利用水热法合成了含二维(2D)铅无机层的三维(3D)无机-有机杂化材料[Pb2Cl(1,4-BDC)1.5]n(1);利用红外光谱、电感耦合等离子体原子发射光谱、X-射线衍射表征了产物的结构,利用热重分析测定了其热稳定性.结果表明,[Pb2Cl(1,4-BDC)1.5]n属于单斜晶系,P21/c空间群,其晶格参数为:a=0.599 000(10)nm,b=1.185 29(2)nm,c=1.847 37(3)nm,β=91.778 0(10)°,V=1.310 98(4)nm3,Z=4,R1=0.032 0,wR2=0.089 4,Rint=0.043 6.就化合物1的分子结构而言,由Pb—X—Pb(X=O或Cl)链接形成的2D无机层通过对苯二甲酸配体连接,构筑成具有3D骨架的无机-有机杂化材料.     

三维无溶剂含能Ag-MOF的制备、热分解动力学及爆炸性能

Solvent molecules can significantly reduce the heat of detonation and stability of energetic metal-organic framework (EMOF) materials, and the development of solvent-free EMOFs has become an effective strategy to prepare high-energy density materials. In this study, a solvent-free EMOF, [Ag₂(DTPZ)]_n (1) (N% = 32.58%), was synthesized by reacting a high-energy ligand, 2, 3-di(1H-tetrazol-5-yl)pyrazine (H₂DTPZ), with silver ions under hydrothermal conditions, and it was structurally characterized by elemental analysis, infrared spectroscopy, X-ray diffraction, and thermal analysis. In 1, the DTPZ²⁻ ligands that adopted a highly torsional configuration bridged the Ag⁺ ions in an octadentate coordination mode to form a three-dimensional framework (ρ = 2.812 g∙cm⁻³). The large steric effect and strong coordination ability of DTPZ²⁻ effectively prevented the solvent molecules from binding with the metal centers or occupying the voids of 1. Moreover, the strong π-π stacking interactions [centroid-centroid distance = 0.34461(1) nm] between the tetrazole rings in different DTPZ²⁻ ligands provided a high thermal stability to the framework (T_e = 619.1 K, T_p = 658.7 K). Thermal analysis showed that a one-step rapid weight loss with intense heat release primarily occurred during the decomposition of 1, suggesting potential energetic characteristics. Non-isothermal thermokinetic analyses (based on the Kissinger and Ozawa-Doyle methods) were performed using differential scanning calorimetry to obtain the thermoanalysis kinetic parameters of the thermodecomposition of 1 (E_a = 272.1 kJ·mol⁻¹, E_o = 268.9 kJ·mol⁻¹; lgA =19.67 s⁻¹). The related thermodynamic parameters [enthalpy of activation (ΔH^≠ = 266.9 kJ·mol⁻¹), entropy of activation (ΔS^≠ = 125.4 J·mol⁻¹·K⁻¹), free energy of activation (ΔG^≠ = 188.3 kJ·mol⁻¹)], critical temperature of thermal explosion (T_b = 607.1 K), and self-accelerating decomposition temperature (T_SADT = 595.8 K) of the decomposition reaction were also calculated based on the decomposition peak temperature and extrapolated onset temperature when the heating rate approached zero. The results revealed that 1 featured good thermal safety, and its decomposition was a non-spontaneous entropy-driven process. The standard molar enthalpy for the formation of 1 was calculated to be (2165.99 ± 0.81) kJ·mol⁻¹ based on its constant volume combustion energy determined using a precise rotating oxygen bomb calorimeter. Detonation and safety performance tests revealed that 1 was insensitive to impact and friction, and its heat of detonation (10.15 kJ·g⁻¹) was higher than that of common ammonium nitrate explosives, such as octogen (HMX), hexogene (RDX), and 2, 4, 6-trinitrotoluene (TNT), indicating that 1 is a promising high-energy and insensitive material.     

Tb-MOFs在荧光检测方面的研究进展

镧系离子特殊的电子排布使镧系有机骨架材料（Ln-MOFs）具有独特的发光性质,通过骨架和不同客体分子间的相互作用,可实现对诸多物质的荧光检测。其中,以铽离子（Tb3+）为中心构筑的Tb-MOFs具有更优良的光学性能和更高的检测灵敏度,是一种极具潜力的高效荧光探针。本文以稀土Tb3+为主线,综述了近年来国内外Tb-MOFs材料在阴阳离子、有机小分子、生物分子荧光检测方面的研究进展,并对未来发展趋势进行了展望。     

机械化学法制备金属-有机骨架及其复合物研究进展

金属-有机骨架(MOFs)是由金属离子/簇和多齿状有机配体通过配位键桥联而形成的多孔晶态材料。MOFs材料具有孔隙率高、比表面积大、尺寸可调、结构易修饰、功能多样化等特点,使其在气体吸附、分离和催化等方面都具有潜在应用价值。到目前为止,在MOFs合成的几种常见方法中,机械化学法(即在无溶剂或极少量溶剂的情况下研磨固体反应物进行的反应)作为一种清洁、绿色、高效的合成手段逐渐引起人们的关注。本综述总结了近年来机械化学合成MOFs及其复合物的典型进展,目的是为机械化学法合成MOFs及其复合材料提供一个通用而易于理解的概述。目前的研究进展表明,机械化学法是一种实用且环境友好的合成方法,为低成本、宏量生产MOFs及其复合物提供了可能。     

基于离散元的杆件断裂全过程数值模拟

杆件的断裂会涉及到大变形、非线性以及不连续等问题,通常的数值计算方法模拟这种复杂力学行为具有局限性。本文基于颗粒离散元法DEM,将接触粘结处的分布式弹簧用梁纤维进行等效,提出了一种适于结构弹塑性分析的DEM纤维梁模型,然后在此基础上构建了构件断裂模拟算法以及纤维破环准则。将该模型应用于悬臂梁结构,模拟了悬臂梁从弹性到弹塑性阶段,再到断裂破坏的全过程,数值模拟得到的结构响应和截面开裂破坏形态均较合理。最后将该方法应用于单层网壳倒塌破坏模拟,并与网壳振动台倒塌试验进行对比,结果表明,数值模拟得到的杆件断裂过程及结构倒塌模式与试验现象一致,验证了该模型的正确性和适用性。