HL-1M边缘等离子体静电湍流扰动

对HL－1M边缘等离子体静电湍流扰动进行了初步的实验研究。获得了扰动的基本特征量，估计了低杂波引起的径向粒子流的变化。在加低杂波（2．45GHz)前、后，电子密度扰动和极向电场扰动的幅度及其关联性变化不大。虽然低杂波部分抑制了静电湍流，但在数量上不能解释粒子约束改善的实验结果。     

静电减速透镜能量分析器的数值计算

用表面电荷密度法计算了能量分析器中静电减速透镜的电位分布,有基尔法对电子轨迹进行了模拟,在电子能量为20keV时,得到分析器的能量分辨为1.0eV;讨论了束径、入射角、透镜第三电极孔径对能量分辨的影响;并对个别实验结果论作了补充.     

Dynamic Behaviour of Nanoscale Electrostatic Actuators

The dynamic behaviour for nanoscale electrostatic actuators is studied. A two parameter mass-spring model is shown to exhibit a bifurcation from the case excluding an equilibrium point to the case including two equilibrium points as the geometrical dimensions of the device are altered. Stability analysis shows that one is a stable Hopf bifurcation point and the other is an unstable saddle point. In addition, we plot the diagram phases, which have periodic orbits around the Hopf point and a homoclinic orbit passing though the unstable saddle point.     

界面分级离子/配位子交换-静电交换的复合模型——离子强度对海水中微量金属-固体粒子相互作用的影响

在实验上首次发现,粘土矿物为固体粒子的体系的E％-pH曲线之离子强度效应是“先右后左摆动现象”;而水合氧化物为固体粒子的体系则是“向左单向移动现象”。对应的等温线之离子强度效应则是“先下后上摆动”和“单向上移”现象,两类四现象一致。为解释上述诸现象,提出液-固界面分级离子/配位子交换-静电交换的复合模型作统一解释和定量处理。由粘土矿物和水合氧化物两类物质的结构可知,前者可发生两类交换作用,彼此消长时曲线位置产生双向摆动;后者只有界面分级离子/配位子交换,故曲线位置单向移动。模型计算结果与实验吻合。     

5-氟尿嘧啶-1-乙酸合铜(Ⅱ)的合成及其与DNA的作用

The 5-fluorouracil-1-acetic acid (5FuAA) and its Cu(Ⅱ) complex (5FuAACu) were synthesized and the date for the crystal complex was obtained. The interaction of 5-fluorouracil-1-acetic acid (5FuAA) and its Cu(Ⅱ) complex (5FuAACu) with DNA was also investigated by using spectral, viscometric, electrochemical and agarose gel electrophoresis methods. The results of interaction with DNA suggest that both 5FuAA and 5FuAACu can bind to DNA in a static electricity attraction mode. But the attraction of 5FuAACu is greater than that of 5FuAA.     

含金属纳米粒子的层层自组装及单壁碳纳米管的催化生长

利用层间的静电吸附作用，重氮树脂和不同种类的含金属纳米粒子被依次吸附到硅片表面形成层层自组装膜。通过改变自组装膜的层数可以控制纳米粒子在表面吸附的量，同时利用重氮树脂的光敏特性可以实现纳米粒子在表面的图案化排布。以这些纳米粒子为催化剂，研究了单壁碳纳米管在硅片表面的化学气相沉积生长。     

Electrospun nanofibers of poly（vinyl pyrrolidone）/Eu^3＋ and its photoluminescence properties

Nanofibers of poly（vinyl pyrrolidone） （PVP）/Eu^3＋ with diameters of 300-900 nm were prepared by using sol-gel processing and electrospinning technique. The products were characterized by scanning electron microscope （SEM）, Fourier transform infrared spectroscopy （FT-IR）, and photoluminescence （PL）. The results indicated that, Eu^3＋ was successfully embedded in the onedimensional hybrid nanofibers, and the PVP/Eu^3＋ hybrid nanofibers had favorable photoluminescence properties.     

硫化锌掺锰/聚乙烯醇复合纳米纤维的制备与表征

利用静电纺丝法与气固反应相结合, 成功地制备了硫化锌掺锰/聚乙烯醇复合纳米纤维, 并对所制备的复合物进行了表征, 探讨了复合物的结构及其性能.     

STRUCTURE EVOLUTION OF POLYMER CHAINS FOR NECKING FORMATION IN HIGH-SPEED FIBER SPINNING PROCESS

Finite element method is used to simulate the high-speed melt spinning process,based on the equation system proposed by Doufas et al.Calculation predicts a neck-like deformation,as well as the related profiles of velocity,diameter, temperature,chain orientation,and crystallinity in the fiber spinning process.Considering combined effects on the process such as flow-induced crystallization,viscoelasticity,filament cooling,air drag,inertia,surface tension and gravity,the simulated material flow behaviors are consistent with those observed for semi-crystalline polymers under various spinning conditions.The structure change of polymer coils in the necking region described by the evolution of conformation tensor is also investigated.Based on the relaxation mechanism of macromolecules in flow field different types of morphology change of polymer chains before and in the neck are proposed,giving a complete prospect of structure evolution and crystallization of semi-crystalline polymer in the high speed fiber spinning process.     

PLLA/β-TCP杂化微纳米纤维的制备及其性能

将湿法工艺合成的β-磷酸钙纳米粒子与左旋聚乳酸(PLLA)的混合溶液通过电纺丝法制成杂化纳米纤维膜,以期制备一种新型纳米纤维骨组织修复材料。采用FT-IR,XRD,TEM,DSC等手段研究了β-磷酸钙(β-TCP)的结构和形态,采用SEM和直径分布探讨了优化PLLA/β-TCP纤维的电纺丝工艺。结果表明:采用湿法合成β-TCP的纳米粒子具有良好的晶型结构,直径在219~328 nm之间;采用双溶剂体系在优化条件下制备的PLLA/β-TCP杂化纳米纤维直径在500~700 nm之间,PLLA/β-TCP界面结合良好,β-TCP起到了增强作用。在湿态条件下,PLLA纤维膜的力学性能有所提高,而PLLA/β-TCP纤维膜的力学性能则呈现下降趋势。