柔性1，5-二（2-乙基咪唑）戊烷配体构筑的两个d10金属配合物的合成、结构及性质

摘要：利用过渡金属镉（锌）盐与1,5-二（2-乙基咪唑）戊烷（BEIP）、5-羟基间苯二甲酸（5-OHH₂IP）在水热条件下合成了配合物[Cd（BEIP）（Cl）₂]_n（1）和[Zn（BEIP）（5-OHIP）]_n（2）,并对其进行了元素分析、IR及X射线衍射法表征。晶体结构研究表明：配合物1属于正交晶系,Pca2₁空间群。配合物2属于单斜晶系,P2₁/n空间群,β=100.542（4）°。配合物1是由配体1,5-二（2-乙基咪唑）戊烷连接镉离子形成一维链状结构。而配合物2是由配体间苯二甲酸连接锌离子形成一维链状结构,该一维链通过1,5-二（2-乙基咪唑）戊烷连接成二维网络结构,进而通过氢键连接成三维超分子结构。此外,配合物1和2具有较高的稳定性和较好的荧光性能,配合物2对甲基橙染料有一定的降解作用。     

柔性1,5-二(2-乙基咪唑)戊烷配体构筑的两个d10金属配合物的合成、结构及性质

利用过渡金属镉（锌）盐与1,5-二（2-乙基咪唑）戊烷（BEIP）、5-羟基间苯二甲酸（5-OHH₂IP）在水热条件下合成了配合物[Cd（BEIP）（Cl）₂]_n（1）和[Zn（BEIP）（5-OHIP）]_n（2）,并对其进行了元素分析、IR及X射线衍射法表征。晶体结构研究表明：配合物1属于正交晶系,Pca2₁空间群。配合物2属于单斜晶系,P2₁/n空间群,β=100.542（4）°。配合物1是由配体1,5-二（2-乙基咪唑）戊烷连接镉离子形成一维链状结构。而配合物2是由配体间苯二甲酸连接锌离子形成一维链状结构,该一维链通过1,5-二（2-乙基咪唑）戊烷连接成二维网络结构,进而通过氢键连接成三维超分子结构。此外,配合物1和2具有较高的稳定性和较好的荧光性能,配合物2对甲基橙染料有一定的降解作用。     

Surface modification of MCM-41 and its application in DNA adsorption

Three types of MCM-41 absorbents, namely, Al~(3+)–MCM-41, La~(3+)–MCM-41, and Zn~(2+)–MCM-41, were prepared through amine grafting, phosphonate modification, and metal ion chelation and characterized by Fourier transform infrared spectroscopy, thermogravimetric analysis, and N2adsorption–desorption analysis. Results revealed that functionalized MCM-41 maintains the original structure of the molecular sieve and that the pore diameter and surface area are reduced compared with those of pure MCM-41. The adsorption behavior of DNA molecules on the surface of the modified molecular sieves was discussed according to the hard-soft acid–base(HSAB) principle. Experimental results showed that DNA purification could be effectively carried out on functionalized MCM-41 and that DNA is easily released by3–4 molL~(-1)NaCl solution. This study could be used as a general platform for future work on DNA adsorption and enrichment.     

Observation of Nano-Dots on HOPG Surface Induced by Highly Charged Arq+ Impact

Highly charged ions （HCIs） have huge potential energy due to their high charge state. When a HCI reaches a solid surface, its potential energy is released immediately on the surface to cause a nano-scale defect. Thus, HCIs are expected to be useful for solid-surface modifications on the nano-scale. We investigate the defects on a highly oriented pyrolytic graphite （HOPG） surface induced by slow highly charged Ar^q＋ ions with impact energy of 20-2000qeV with scanning probe microscopy （SPM）. In order to clarify the role of kinetic and potential energies in surface modification, the nano-defects are characterized in lateral size and height corresponding to the kinetic energy and charge state of the HCIs. Both the potential energy and kinetic energy of the ions may influence the size of nano-defect. Since potential energy increases dramatically with increasing charge state, the potential energy effect is expected to be much larger than the kinetic energy effect in the case of extremely high charge states. This implies that pure surface modification on the nano-scale could be carried out by slow highly charged ions. The mean size of nano-defect region could also be controlled by selecting the charge state and kinetic energy of HCI.     

双外推法研究FeC2O4·2H2O脱水过程的动力学机理

On the basis of the Coats-Redfern's integral equation and Ozawa's equation. the probable mechanism of the dehydration process of FeC2O4 2H2O was investigated using double extrapolation. The dehydration Process includes two steps. The first step is the nuclear producing and growing process(n=1.5), G(α)= [ln(1-α)]1/1.5; the second step is a two-dimensional diffusion process, G(α)=(1-α)ln(1-α)+a: the corresponding kinetic parameters were determined.     

Electrochemical behaviors and determination of melamine in neutral and acid aqueous media

The electrochemical behaviors of melamine (MEL) were studied at paraffin-impregnated graphite electrode in PBS (pH 7.0) and 0.5 M H₂SO₄. Various methods including UV–vis thin-layer spectroelectrochemistry, infrared spectra (IR) and electrochemicatry have been performed to investigate the characteristics. In 0.1 M PBS (pH 7.0), MEL loses two electrons to form a dication, which couples head-to-head with a neutral molecule of MEL to form a dimer accompanying the production of azocompound, the dimer plays a role of a monomer in the following polymerization. In 0.5 M H₂SO₄, unstable MEL mostly hydrolyzes to form ammeline, ammelide, s-triazine-2,4,6-trion, and tricyanic acid, respectively; The hydrolysis could be accelerated by electrochemical method; Meanwhile, MEL associates tricyanic acid to give a plane molecule cake by hydrogen bonding. The spectra responses of MEL at 205 and 234 nm are linearly increasing in a same concentration range of 1.0 × 10⁻⁷–1.0 × 10⁻⁵ M in 0.5 M H₂SO₄ (determination limit, 1 × 10⁻⁸ and 3 × 10⁻⁸ (3σ)). The proposed method was successfully applied to the determination of MEL in real sample.

     

一种确定固相反应机理函数的新方法--固态草酸镍(Ⅱ)二水合物脱水过程的非等温动力学

０序有关典型的草酸盐热分解反应动力学特点的文章相继报道过［１］,它们大多着眼于反应体系在升温过程中物理性质（如体积、表面特征等）的变化,以及对热分解反应的温度区间和分解产物的确定。近年来,有人尝试对草酸盐热分解反应的机理进行确证。广泛采用的方法是Ｃｏ...     

Y2O3对铝代α-Ni(OH)2电极材料高温性能的影响

固相法合成的样品,经X-射线粉末衍射(XRD)、扫描电镜(SEM)、红外光谱(FTIR)、电感螯合等离子体发射光谱(ICP-AES)、比表面积(BET)、热重分析(TGA)和滴定法(CT)等表征为α-Ni_0.81Al_0.19(OH)_2.19-2y(CO₃)_y·xH₂O(x=1.1~1.2,y=0.10~0.12)。为了改善其高温性能,样品经混掺不同量Y₂O₃后作为氢镍电池的正极材料,做了不同温度恒流充放电、微电极循环伏安(CV)和交流阻抗谱(EIS)测定。结果表明,60 ℃时掺Y₂O₃0.4wt%~1.2wt%,能提高样品不同倍率放电比容量达18.1％~42.0％,同时也改善了高温放电电位。     

高电荷态离子与SiO2表面相互作用的研究

高电荷态离子(Pbq ,Arq )由兰州近代物理研究所的ECR实验平台所产生,轰击非晶态SiO2表面.用微通道板测量溅射粒子产额的角分布.用公式拟合实验溅射角分布得到了较好的结果,并给出了初步的理论解释.由此得出了高电荷态离子与SiO2表面作用的微分溅射截面.实验结果表明高电荷态离子能够增加动能溅射;同时高电荷态离子入射能够引起势能溅射.在大角度入射时,溅射产额主要是由碰撞引起的;在小角入射时势能溅射所占比重会增大.     

循环伏安法制备Ag纳米线阵列

In this paper, highly ordered anodic aluminum oxide (AAO) template with hexagonal close-packed arrays was successfully fabricated through a two-step anodization process. Ag nanowire arrays with high aspect ratio were prepared using cyclic voltammetry within the confined nanochannels of AAO template. In addition, standing Ag nanowire arrays free-support of templates were also fabricated successfully by cyclic voltammetry method. The micrographs and crystal structures of Ag nanowires were studied by field emission scanning electron microscope (FESEM) and X-ray diffraction (XRD). FESEM observation showed that the Ag nanowire arrays with high aspect ratio lie orderly on the surface of the substrate. The diameter of the Ag nanowire is about 60 nm and the length up to 30 μm or more. While the controlled nanowire arrays exhibit highly ordered structure in large area and the standing Ag nanowire in the array has the length of 1 μm and good orientation. XRD results illustrated that the Ag nanowires in the arrays deposited by cyclic voltammetry method have a face centered cubic structure and are preferentially oriented in the (220) direction.