Schematic design of a complex thin-film luminescent screen usable for vacuum fluorescent and field emission display

Based on the facts related to solid-state cathodoluminescence, mixed excitation, and serial excitation recently discovered in our laboratory, a fundamental schematic design and a series of different schematic elaborated designs are proposed for protection from electron accumulation, reasonable use of a luminescent screen, and enhancement of light intensity.     

Bifurcation of a modified railway wheelset model with nonlinear equivalent conicity and wheel–rail force

This paper presents the bifurcation behaviors of a modified railway wheelset model to explore its instability mechanisms of hunting motion. Equivalent conicity data measured from China high-speed railway vehicle are used to modify the wheelset model. Firstly, the relationships between longitudinal stiffness, lateral stiffness, equivalent conicity and critical speed are taken into account by calculating the real parts of the eigenvalues of the Jacobian matrix and Hurwitz criterion for the corresponding linear model. Secondly, measured equivalent conicity data are fitted by a nonlinear function of the lateral displacement rather than are considered as a constant as usual. Nonlinear wheel–rail force function is used to describe the wheel–rail contact force. Based on these modifications, a modified railway wheelset model with nonlinear equivalent conicity and wheel–rail force is set up, and then, some instability mechanisms of China high-speed train vehicle are investigated based on Hopf bifurcation, fold (limit point) bifurcation of cycles, cusp bifurcation of cycles, Neimark–Sacker bifurcation of cycles and 1:1 resonance. In particular, fold bifurcation of cycles can produce a vast effect on the hunting motion of the modified wheelset model. One of the main reasons leading to hunting motion is due to the fold bifurcation structure of cycles, in which stable limit cycles and unstable limit cycles may coincide, and multiple nested limit cycles appear on a side of fold bifurcation curve of cycles. Unstable hunting motion mainly depends on the coexistence of equilibria and limit cycles and their positions; if the most outward limit cycle is stable, then the motion of high-speed vehicle should be safe in a reasonable range. Otherwise, if the initial values are chosen near the most outward unstable limit cycle or the system is perturbed by noises, the high-speed vehicle will take place unstable hunting motion and even lead to serious train derailment events. Therefore, in order to control hunting motions, it may be the easiest way in theory to guarantee the coexistence of the inner stable equilibrium and the most outward stable limit cycle in a wheelset system.

     

绿色氧化合成苯乙酮的研究

研究了以氧气为氧化剂、液相氧化乙苯合成苯乙酮反应的各种影响因素,在优化的反应条件(冰乙酸20mL、乙苯5mL、醋酸钴用量为乙苯的4.2%(物质的量)、Br/Co=2.5(物质的量)、氧气流速为100mL/min、常压、温度80℃和反应时间4h)下,乙苯转化率达到99.94%,苯乙酮收率达到98.49%.     

基于吴方法的多值模型检验

大型复杂系统的开发过程中不可避免的涉及到非确定或不一致信息的处理,而多值模型检验作为经典模型检验的一种扩展,是处理和分析包含此类信息模型的一种有效手段.提出了一种系统化的多值逻辑(涵盖经典逻辑)的代数表示方法,使用吴方法的基本思想和框架实现复杂系统形式验证中基于多值逻辑的模型检验的代数化,建立了通过吴方法实现多值模型检验技术的整体框架.这种代数化的多值模型检验方法可以作为现有方法的有力补充.     

铁苯基膦配合物均相催化乙酰丙酸乙酯与甲酸反应转化为γ-戊内酯的分子机制

本文基于密度泛函理论,计算了Fe(CF3SO3)2/PP3催化乙酰丙酸乙酯与甲酸反应转化为γ-戊内酯的反应机理。分析了单重态和三重态反应路径的热力学和动力学性质,结果表明除了预催化剂活化出现势能面交叉外,反应主要在三重态势能面上进行,包括以下几个步骤：甲酸盐配位方式重置,β-H消除得到活性催化剂[FeH(PP3)]+,接着乙酰丙酸乙酯的羰基碳和羰基氧接连被质子化得到中间体4-羟基戊酸乙酯,最后质子化的反离子CF3SO3H作为氢转移梭子协助分子内脱醇—关环生成目标产物γ-戊内酯。进一步探讨不同金属苯基膦配合物的催化活性,证实金属适宜的配位能力是筛选催化剂的关键。理论计算结果为优化设计高性能的生物质转化催化剂提供一定的理论指导。     

具有周期振荡系数二阶椭圆型方程的双尺度高精度算法

本文考虑了一类具有周期振荡系数二阶椭圆型方程边值问题,提出了基于双尺度渐近展开式的高精度有限元算法,并给出严格的证明。     

杭州城市建设用地扩张的时空演变分析

基于杭州市1914—2018年间6期近代地图与遥感影像数据,通过目视解译数字化的近代地图,使用面向对象的分类方式对CORONA、Landsat TM和OLI影像进行分类并提取建设用地数据,计算扩张速度、重心变化、景观格局指数和增长类型,分析建设用地的扩张过程与扩张模式。结果表明：（1）近百年来杭州城市建设用地扩张明显,扩张过程主要集中在改革开放后。（2）杭州城市重心经历了“北—西北—北—东南—南”的变化过程,由向单一方向扩张转变为多方向均衡发展的态势。（3）建设用地扩张过程基本符合“扩散—融合”假说;城市核心区呈现蛙跳增长、填充增长、边缘增长依次主导的螺旋式发展过程,研究区域整体表现为边缘增长始终占相对重要地位的特征。（4）通过近代地图与遥感影像的集成分析,为长时间尺度的城市研究提供了一种路径。     

Metal-organic framework derived NiCoP hollow polyhedrons electrocatalyst for pH-universal hydrogen evolution reaction

Hollow nanostructures have attracted increasing research interest in hydrogen evolution reaction owing to their unique structural features.Herein,Ni-Co mixed metal phosphide hollow and porous polyhedrons was successfully composited(expressed as NiCoP).Benefiting from the synergistic effects of ZIF-67 by doping Ni elements and the well-defined hollow and porous structure,the as-synthesized NiCoP hollow and porous polyhedrons exhibit better electrochemical properties and mechanical stability for hydrogen evolution reaction over a pH-universal range,with a small Tafel slopes of 72,101,176 mV/dec,and a low overpotential of 82,102,261 mV at a current density of 10 mA/cm² in 0.5 mol/L H₂SO₄,1 mol/L KOH and1 mol/L phosphate buffer solution(PBS).This general strategy can also be applied to fabricate other hollow cobalt-based phosphides and MOFs-derived materials for HER.