剪切历史对尼龙熔体结晶行为的影响

采用差示扫描量热法研究了原始聚酰胺材料在经历不同的预剪切过程或应用不同设备进行剪切后其结晶行为的变化,结果表明,原始样品经过预剪切后,结晶温度升高5～10℃,半结晶时间降低到原始样品的一半.当聚酰胺材料经历很低的剪切时其结晶温度就有很大的提高,进一步提高剪切强度,结晶温度的增加趋势变缓.偏光显微镜观察表明有剪切历史的样品,球晶尺寸减小.作为对此,聚烯烃和聚酯材料的结晶对剪切历史不敏感,剪切与非剪切样品的结晶行为基本相同,据此推测聚酰胺分子间氢键可能是这种剪切记忆效应产生的原因.     

Catalytic Asymmetric[2,3]-Sigmatropic Rearrangement of Sulfur Ylides Generated from Carbenoids and Allenic 2-Methylphenyl Sulfide

The first investigation on catalytic asymmetric [2, 3]-sigmatrop-ic rearrangement of sulfur ylides generated from carbenoids andallenic phenyl sulfide was carried out. Up to 55% ee value wasobtained.     

羧甲基壳聚糖对胆红素的吸附性能研究

合成了不同取代度的羧甲基壳聚糖(CM-CTS)作为吸附剂，研究了不同条件对CM-CTS吸附胆红素性能的影响．结果表明：在实验条件下，随着羧甲基取代度的增加和体系温度的升高．最大吸附率和吸附速率均相应增加：在接近人体血液pH值的条件下，CM-CTS对胆红素的吸附性能较佳：人血清白蛋白和离子强度的增加对CM—CTS吸附胆红素有明显的抑制作用。     

钛酸铋系化合物的光催化性能研究

采用化学溶液分解法制备了钛酸铋化合物: Bi₁₂TiO₂₀, Bi₄Ti₃O₁₂和Bi₂Ti₂O₇, 并采用XRD表征了其结构. 用TEM观察发现其平均粒径＞100 nm, UV-Vis漫反射谱测定显示它们在可见光区均呈现极强的吸收特征. 紫外光照射下甲基橙的光催化降解脱色实验表明, 三种钛酸铋化合物均具有较强的光催化活性, 其中, Bi₁₂TiO₂₀的光催化活性最强, 几乎与P-25相同. 钛酸铋化合物光催化性能的不同在于它们具有不同的晶相结构和电子结构.     

褪黑素的电化学氧化行为及伏安法测定

采用电化学方法研究了褪黑素在金电极上的不可逆氧化行为.结果表明：其伏安过程为受弱吸附和扩散共同控制的过程,氧化反应电荷转移数为2.采用伏安法对褪黑素进行测定,方法的检出限可达10^-10ml/L数量级.方法可用于脑白金胶囊中褪黑素含量的测定.     

Determination of Dopamine in the Presence of Ascorbic Acid on the IrO2-Ta2O5 Type DSA Electrode

IrO2Ta2O5 (70%: 30%, molar ratio) electrodes (ITEs) were prepared by the thermal decomposition method. Typical “mud-cracked” surface and surface enrichment of Ta were observed. The determination of dopamine (DA) was carried out in the presence of ascorbic acid (AA). The detection limit of DA was 5~10 5 mol/L without the interference of AA.     

痤疮患者血清中微量元素含量的变化

测定了52例痤疮患者血清Ca,Mg,Zn,Cu,Fe五种元素的含量。结果表明，痤疮患者血清Zn水平显著低于正常人（P＜0．001），血清Ca,Mg,Cu,Fe水平则与正常人无差别（P＞0．05）。部分病人口服补充锌剂后痤疮症状有所好转。提示痤疮患者应重视体内微量元素含量的变化，并做适当的补充。     

温度对贮氢合金MlNi3.75Co0.65Mn0.4Al0.2动力学性能的影响

在-20℃～85℃的范围内系统地研究了温度对贮氢合金MINi3.75Co0.65Mn0.4Al0.2动力学性能的影响.结果表明:该贮氢合金电极的电化学反应电阻Rt,欧姆内阻Ro,阴极极化过电位,阳极极化过电位,阳极极化过程中的电化学反应过电位ηa和浓差极化过电位ηa均随温度的升高而减小,该电极的交换电流密度i0,对称因子β和电极中氢的扩散系数D随温度的升高而增大.当放电电流密度较低时,电化学反应是整个电极过程的速度控制步骤;当放电电流密度较高时,氢的扩散是整个电极过程的速度控制步骤;在中等放电电流密度下,电极过程由电化学过程和氢的扩散过程混合控制.该电极中电化学反应过程和氢扩散过程的活化能分别为28.1 kJ·mol-1和19.9 kJ·mol-1.     

New Type High Efficient Quasi-Solid-State Ionic Liquid Electrolyte for Dye-Sensitized Solar Cells

For the fist time the preparation of a mostly solid-state high efficiem electro-conductive material comprising 1-methyl-3-propylimidazolium iodide （MPII）, benzimidazole （BI）, iodine and lithium iodide was reported. In this electrolyte, BI acts as not only additives but also gelators. With its significant electrochemical properties, an overall efficiency of 3.07% was achieved under AM 1.5 （100 mW/cm^2）.     

Theoretical Study on Enol-keto Tautomerism of α-Fluorine-β-diketones

Density Functional Theory method is applied to investigate the enol-keto tautome- rism of both acyclic and cyclic α-fluorine-β-diketones. It is shown that, for acyclic cases, α-fluorine could improve the relative stability of keto tautomer by lessening intramolecular hydrogen bond of enol form, whereas the relative stability of cyclic enol could be attributed to two factors: destabi- lization of keto and stabilization of enol. Furthermore, the relative stabilities of all enol tautomers are improved in THF to different extents.