(EnH2)2Ge2S6的合成与结构表征

用溶剂热方法制备了(EnH2)2Ge2S6单晶.单晶X射线衍射分析结果表明,(EnH2)2Ge2S6属单斜晶系,P2(1)/n空间群,晶胞参数a=0.67125(5)nm,b=1.12290(4)nm,c=1.07518(4)nm,β=92.288(2)°,Z=2.利用DSC及TG分析研究了其热稳定性,结果表明,该化合物在200℃以下能够稳定存在.     

F-T合成Fe/Cu/K/Al2O3催化剂的结构性质、还原及碳化行为

采用连续共沉淀与喷雾干燥成型技术相结合的方法制备了微球状Fe/Cu/K/Al2O3催化剂, 结合TG、N2物理吸附、XRD、H2-TPR、CO-TPR、Mossbauer谱等表征手段, 研究焙烧温度对Fischer-Tropshc (F-T)合成铁基催化剂的结构性质、还原行为和碳化行为的影响. 结果表明, 较高的焙烧温度有利于碳酸盐的分解和结晶水的脱除, 促进了催化剂的还原. 随着焙烧温度的进一步升高, 催化剂的比表面积减小, 平均孔径增大, α-Fe2O3晶粒的粒径增大, 催化剂中金属与载体的相互作用增强, 从而削弱了CuO、K2O助剂的作用, 严重抑制了催化剂的还原和碳化.     

呋喃-乙酸分子间相互作用的量子化学研究

用密度泛函理论B3LYP方法选取6-311＋＋G(d,p)基组对呋喃-乙酸复合物进行了量子化学计算研究, 通过在相同水平下的频率振动分析发现了该势能面上6个极小值点, 其最稳定构型对应一强O…H—O型氢键, 其结合能在消除基组重叠误差后为－20.87 kJ•mol^－1. 通过自然键轨道(NBO)分析, 研究了电荷转移及轨道相互作用. 通过自洽反应场(SCRF)理论中的Onsager 溶剂模型在介电常数分别为1.0, 2.247, 4.9, 7.58, 10.36, 20.7, 32.63, 38.2, 46.7, 78.39的不同溶剂环境下重新优化呋喃与乙酸势能面上最稳定构型A, 研究了溶剂对呋喃-乙酸复合物几何构型、电荷分布、偶极矩以及结合能的影响. 发现溶剂化作用增大了呋喃与乙酸分子间的结合能, 导致O…H距离减小, H—O振动频率红移. 当溶液介电常数在1.0～32.63范围时, 溶剂效应十分显著, 当介电常数大于32.63后, 溶剂化作用几乎达到了极限.     

聚(二甲基硅氧烷-co-甲氧基十二烷基硅氧烷)在棉纤维及其他模型表面的膜形貌及定向排列方式

用场发射扫描电镜(FESEM)、原子力显微镜(AFM)、光电子能谱(XPS)等仪器研究了棉纤维以及再生纤维素表面聚(二甲基硅氧烷-co-甲氧基十二烷基硅氧烷)(DDPS)的膜形貌及其定向排列方式.结果发现,在天然棉纤维以及再生纤维素模型表面,DDPS均能形成宏观上平滑、而微观形态学实则非均一的疏水性硅膜,表明DDPS的定向排列成膜方式为疏水性硅甲基、硅十二烷基朝外伸向空气,硅氧偶极键指向基质界面.     

An Electrostatic Bond Energy Model for Enthalpies of Formation of Chloroalkanes in Gaseous States

An electrostatic bond energy model is formulated to fit the enthalpies of formation and dipole moments of the alkanes and chloroalkanes. In this model, the charge distributions are calculated by an electrostatic approach similar to the "MSE" method, and the enthalpy of formation of a molecule is the sum of the bond energy terms plus the electrostatic energy of the interactions between the charges on all atoms. All parameters of this model are obtained by parameterization. The calculated dipole moments for 13 chloroalkanes and enthalpies of formation for 19 alkanes and non-geminal chloroalkanes agree with the determined values very well. To calculate the enthalpies of formation of geminal chloroalkanes, a correction mainly attributed to the van der Waals interactions in the geminal substituted group, about 24 kJ/mol per pair of geminal chlorine atoms, is introduced.     

无机纳米管材料合成进展

无机材料的微观结构决定了材料的许多特性,如传输行为、催化活性、分离效率、粘附、储存和释放动力学。具有管状结构纳米尺度的材料由于其特殊的结构及由此带来的特殊性能正成为一个令人兴奋的化学研究领域。文章综述了近年来无机纳米管材料的合成途径和进展。     

KZnF3：Eu^3＋单晶生长及光谱特性

利用Ｂｒｉｄｇｍａｎ－Ｓｔｏｃｋｂａｒｇｅｒ方法在氩气气氛下生长出ＫＺｎＦ３：Ｅｕ＾３＋单晶，测定了晶体的激发光谱、荧光发射光谱和ＥＳＲ谱，讨论了Ｅｕ离子的取代格位。     

激光光散射研究丙烯酰胺-二甲基二烯丙基氯化铵共聚物的溶液行为

用激光光散射技术表征了阳离子含量受控的丙烯酰胺 二甲基二烯丙基氯化铵共聚物 (简称P(AM DMDAAC) )在 0 1mol LNaCl溶液中的基本参数和溶液行为 .表观基本参数 : Mw ,app =5 0 4× 10 5g·mol- 1 、app =39 9nm和A2 ,APP =1 5× 10 - 4cm3·mol·g- 2 .动态光散射研究结果表明 ,扩散系数Dt 与角度、浓度皆呈非线性依赖关系 ,当C >C 或在较大的散射角域 ,Dt 偏离线性关系所预示的理论值而向减小的方向发展 ,表明存在缔合物 ;流体力学半径Rh 分布有大、小两个范围 ,并随温度升高向小尺寸方向发展 ,证明了体系中存在缔合行为以及升温的解缔合作用 .在一定条件下 ,“亚稳定性”的存在有力地旁证了体系的缔合行为     

YDHC-10催化剂用于不饱和植物油脂肪酸氢化工艺条件的研究

采用自制的催化剂YDHC-10对氢化工艺条件进行了研究。找出了植物油脂肪酸氢化时,氢化压力2MPa、氢化温度180-200℃、氢化时间60min以及催化剂浓度对植物油脂肪酸氢化的影响．     

硫代乙酰胺体系电沉积法制备CdS纳米膜

The film of surface active agents spread out on the surface of the electrolyte of Thioacetamide and cadmium chloride. CdS nanofilm was deposited at the interface of surface active agents and electrolyt by the method of electrodeposition. The optimal conditions on which the nanofilm was prepared of the least crystals and uniform particles could be attained via analytical results of L₁₆(4⁵) orthogonal experiments. The optimal conditions: castor oil/hexadecanoll 0.06 mL·cm^-2，CdCl₂/CH₃CSNH₂ 4 mmol·L^-1, cell voltage 5 V, electrodeposition temperature 15 ℃. The effects on the grain size of temperature, surface-active agent, electrodyte concentration, cell voltage and pH become smaller in the series. If the temperature was high, the movement of molecules of surface-active agent and electrodyte would be faster, thus the preparation of the film would be difficult. The grain size of thinfilm varied with the surface-active agents, however, when the amount of surface-active agents reached a certain value, the grain size would remain unchanged. The higher the electrodyte concentration, the larger the grain size of nanofilm. The surface forms were changed at the same time. If the pH of the electrodyte was higher or lower, nanofilm could not be prepared successfully, thus the pH range should be is 3～6. SEM image of the nanofilm shows the occurance of dendrite. The sucessful preparation of nanofilm is closely related to the nature of surface activre agent due to the nanofilm growth mechanism.