氯硝柳胺衍生物的合成与结构表征

由氯硝柳胺与1,2-二溴乙烷反应,得到2-(2-溴乙氧基)-5-氯-N-(2-氯-4-硝基苯基)苯甲酰胺,再与乙二醇、二乙二醇、三乙二醇分别反应,得到了三个氯硝柳胺衍生物,其结构由IR1、H NMR和高分辨质谱确证。     

稀土掺杂PbO2电极的制备及催化性能研究

以SnCl4.5H2O,Sb2O3,La（NO3）3（或Nd（NO3））为前驱体（摩尔比分别为Sn∶Sb∶La（Nd）=100∶6∶（0.5,1,2）,制备稀土（La,Nd）掺杂Sn,Sb溶胶,以钛电极为基体,用溶胶-凝胶法制备稀土（La,Nd）掺杂SnO2中间层,热处理温度为450和500℃,热处理时间共5 h;采用电沉积法制备PbO2表面层,得到改性PbO2阳极,优化了制备改性PbO2电极的稀土掺杂量。以含油污水为目标有机物,借助于CODCr去除情况分析电极的电催化氧化能力;分析了电极结构与电催化特性之间的关系。采用SEM和XRD分析了制备电极的表面形貌、晶体结构并通过电化学工作站对其析氧电位进行了表征分析。结果表明,中间层掺杂La元素的电极,掺杂比为Sn∶Sb∶La=100∶6∶1时电极性能最好;而中间层掺杂Nd元素,掺杂比为Sn∶Sb∶Nd=100∶6∶2时电极的性能最好,此比例时电极对目标有机物CODCr去除率分别为91.90%和90.93%。     

Microkinetics of H2S Removal by Zinc Oxide in the Presence of Moist Gas Atmosphere

The microkinetics os H2S removeal by ZnO desulfurization in H2O-CO2-N2,H2O-CO-N2 and H2O-O2-N2 gas mixtures was studied by thermogravimetric andlysis.Experiments were carried out with 100-120 mesh ZnO powder at temperatures from 473K to 563K.The results show that the kinetic behaviors of desulfurization could all be described by an improved shrinking-core model.The activation energies of the reaction and the diffusion in different gas atmospheres were estimated.     

交联聚苯乙烯强－弱碱树脂的合成及脱色性能研究

交联聚苯乙烯氯甲基化后，分别与甲胺（或二甲胺）、三甲胺（或α－甲基吡啶、二甲基乙醇胺）混合胺化试剂进行亲核取代反应，合成了一系列同时带有强－弱碱功能基的交联聚苯乙烯树脂，并表征了这些树脂的结构，测定了树脂对甜菊甙的脱色性能，结果表明，这些树脂功能基碱性适中，脱色容量较高，甜菊甙损失较少，再生效率高。     

溶剂萃取法制备Co(PO_3)_2超细微粉

本文用溶剂萃取法成功地制备了偏磷酸钴超细微粉并通过ＸＲＤ，ＩＲ，ＴＧ，ＤＴＡ，ＴＥＭ等实验对超细微粉的组成、结构进行了表征。     

Eu(Ⅲ)、Tb(Ⅲ)、Ho(Ⅲ)、Tm(Ⅲ)和Lu(Ⅲ)与N,N′-二(邻羟基亚甲基)乙二胺配合物的研究

Dutt曾合成稀土离子与N,N′-二(邻羟基亚甲基)乙二胺的稀土双希夫碱配合物。但未见报道Eu(Ⅲ),Tb(Ⅲ),Ho(Ⅲ),Tm(Ⅲ),Lu(Ⅲ)与双希夫碱N,N′-二(邻羟基亚甲基)乙二胺的配合物。本工作合成了这5种双希夫碱配合物。 所用稀土氧化物纯度大于99.9%(上海跃龙化工厂)。水杨醛(CP,用前经减压蒸馏提纯)。稀土硝酸盐Ln(NO_3)_3·xH_2_由稀土氧化物与硝酸反应制得。其余试剂均为分析纯。 仪器为Perkin-Elmer 240-C元素分析仪;Nicolet-5DX型红外光谱仪,KBr压片;岛津UV-     

茶汤及河水中铁的形态分析

本文采用阳离子交换、活性炭分离－光度法研究了铁的形态分离及测定条件，建立了铁的形态分析方法。应用此法测定了茶汤及河水中铁的总量、悬浮态、溶解态、无机态、有机态、Ｆｅ（Ⅲ）和Ｆｅ（Ⅱ）等形态，结果令人满意。     

Microdetermination of proteins using m-carboxychlorophosphonazo as detection probe by enhanced resonance light scattering spectroscopy

Proteins can be determined using a common spectrofluorometer to detect the intensity of resonance light scattering (RLS). Under acidic conditions, the reaction between m-carboxychlorophosphonazo (CPA-mK) and proteins enhances the weak light scattering of CPA-mK drastically. This enhanced intensity is proportional to the concentration of proteins. The linear ranges for human serum albumin are 0.5-35.0 microg/mL, with detection limits of 0.104 microg/mL. The method yields results comparable to those of the calorimetric method using Coomassie Brilliant Blue G-250 (CBB) with relative standard deviations of 0.72-2.10% (n = 10). There is almost no interference by amino acids and most of the metal ions.     

Octa-membered Water Ring Chain Based on Sulfonic Group in Ni（Ⅱ） Complex with 2-[（E）-（2-Oxidophenyl）methyleneamino] Ethanesulfonato and 2,2＇-Bipyridinyl

The title compound, [Ni（tssb）（2,2-bipy）2].5（H2O） 1 （tssbH2 =2-[（E）-（2-oxido- phenyl）methyleneamino]ethanesulfonato, 2,2-bipy = 2,2＇-bipyridinyl）, belongs to orthorhombic, space group Pbcn with a = 20.3983（18）, b = 17.6929（15）, c = 17.0897（15） nm, V= 6167.8（9） nm^3, Mr= 688.38, Z = 8, De = 1.481 g.cm^-3, F（000） = 2880,μ = 0.758 mm-1 and S =1.099. Each NiIr atom is six-coordinated by one N and one O atoms from one tssb^2- anion and four N atoms from two 2,2-bipy ligands to give a distorted octahedral geometry. Noticeably, there exists a rare octa-mem- bered water ring which presents a 1D chain by sulfonic group.