Synthesis and Crystal Structure of 4,4′-(4-(1-Naphthyl)-4-phenyl- 1,3-butadienylidene)-bis[N,N-diethylbenzenamine]

The title compound (C40H42N2) has been synthesized by the reaction of 1-(1-naphthyl)-1-phenyl-3-chloropropylene and bis(4-(diethylamino) phenyl)methanone, and characterized by IR, 1H NMR, MS and X-ray diffraction analysis. The crystal belongs to the monoclinic system, space group P21/c with a = 17.047(3), b = 10.807(2), c = 1&494(4) (A), β = 105.727(4)°, V=3279.4(11) A3, Mr = 550.76, Z = 4, Dc = 1.115 g/cm3, μ(MoKα) = 0.085 mm-1, F(000) = 1184, the final R = 0.0625 and wR = 0.1384 for 2276 observed reflections (I ＞ 2σ(Ⅰ)). X-ray analysis reveals that the butadiene fragment adopts a planar cisiod conformation and makes a dihedral angel of 69.4(2)° with the naphthalene ring.     

Synthesis, Crystal Structure, Fluorescent and Thermal Properties of Sodium Tridecafluorodizirconate Na5Zr2F13 Compound

1 INTRODUCTION Considerable research effort on the heavy metal fluoride glasses like barium, zirconium fluoride and a series of rare-earth fluorozirconate compounds du- ring the last two decades was initiated by the broad optical transmission window of these glasses and thereby the potential for ultralow-loss optical fi- bers[1~10]. The fluorozirconate of alkali metals was first reported in 1938[11], and most of the sodium and potassium fluorozirconates were reported amongthe 1940s and 19…     

Synthesis and Crystal Structure of a Co(II) Complex with Schiff Base and Imidazole Ligand

1 INTRODUCTION The chemical behavior of metal complexes with Schiff base ligand has attracted much attention be- cause of their catalytic activity in some industrial[1, 2] and biochemical processes[3~5]. As some metal com- plexes have shown the catalytic activity in some polymerization reactions[2, 6], we are recently inte- rested in polymerizartion of organo-silicon com- pounds catalyzed by Schiff base complexes of tran- sition metals. A series of Schiff base complexes have been prepare…     

Investigation on Electronic Structures and Spectra for the Substituted Fullerene C77B-

1 INTRODUCTION After Guo[1] synthesized and detected C60-nBn and C70-nBn by mass spectra, investigations on fullerenes doped by other atoms became more and more interesting. Andreoni[2] studied the impurity states of the doped fullerenes C59B; Dong[3] calculated the structural and electronic properties of C59B; Wang[4] assessed the stability of heterohedral fullerenes C60-xBx. Lamparth[5] prepared C59N and C69N , and put forward the possible structures for C59N . Sahoo[6] obtained…     

液相催化复极性流化床电解槽处理对硝基酚废水

应用液相催化复极性流化床电解槽降解处理对硝基酚废水.溶液中的Fe2+离子与O2在阴极还原生的成H2O2形成了Fenton试剂,实验以对硝基酚为降解底物,考察了槽电压、Fe2+浓度及曝气量对模拟废水对硝基酚及COD去除率的影响.结果显示,在pH=3.0,电压30V,Fe2+浓度500 mg.L-1,曝气量0.4 m3.h-1的条件下,对硝基酚及COD均有较高的去除率.     

三相流化床电极反应器深度处理制浆废水

应用三相流化床电极反应器(新型电化学反应器)处理制浆废水.研究了曝气量、槽电压、溶液pH值及FeSO4浓度等因素对电解效果的影响.结果表明,该反应器深度处理制浆废水的最佳工艺条件为:槽电压20 V,曝气量为0.3 m3.h-1,FeSO4浓度为1000 mg.L-1,pH值≈2.5,反应时间为90 m in时COD去除率为70.1%.     

柱状薄层离子色谱电自生式抑制器

设计一种新型的柱状薄层离子色谱电自生式抑制器.采用多孔电极实现电极-电解液室一体化,消除了电极-电解液室的电压降;柱状薄层的抑制室结构规范了装配工艺并简化了结构,提高其抑制器的性能.     

周期函数Fourier级数展开式唯一性的简单证明与推广

对于周期函数f(x)按不同的周期展开对应不同的Fourier级数,这些表面上不同的式子是否一致引起了人们的注意[1],[2].本文应用Parseval等式给出一个关于这种唯一性的简单证明,并把这一种性质推广到高维情况的多重Fourier级数.     

基于RFID和指静脉识别的化学药品智能管理柜设计

为保障实验室中存放的药品安全, 提出一种基于射频识别(RFID)和指静脉识别的化学药品智能管理柜. 智能柜采用RFID、指静脉识别等物联网技术, 通过用户身份认证, 化学药品的自动识别、记录以及存储空间的智能控制, 实现实验室化学药品的高效安全管理. 样机实际测试结果表明, 系统可以较好地通过指静脉识别对使用者的身份进行认证, 也能够通过RFID快速识别化学药品; 系统智能化程度高, 各项功能完备, 可显著提高实验室化学药品管理能力.     

关于两个图的一类新连接图的谱

给定2个图G1和G2,设G1的边集E(G1)={e1,e2,?,em1},则图G1⊙G2可由一个G1,m1个G2通过在G1对应的每条边外加一个孤立点,新增加的点记为U={u1,u2,?,um1},将ui分别与第i个G2的所有点以及G1中的边ei的端点相连得到,其中i=?1,2,?,m1。得到：（i）当G1是正则图,G2是正则图或完全二部图时,确定了G1⊙G2的邻接谱（A-谱）。（ii）当G1是正则图,G2是任意图时,给出了G1⊙G2的拉普拉斯谱（L-谱）。（iii）当G1和G2都是正则图时,给出了G1⊙G2的无符号拉普拉斯谱（Q-谱）。作为以上结论的应用,构建了无限多对A-同谱图、L-同谱图和Q-同谱图;同时当G1是正则图时,确定了G1⊙G2支撑树的数量和Kirchhoff指数。