1．5GHz锯材超导腔的研制

介绍铌材超导腔的研制进展，重点讨论了国产铌腔的材料改性，以及相应的超导腔性能的改进．叙述了１．５ＧＨｚ铌腔的腔形设计，分析了铌材的射频性能和机械性能，制定了铌腔制作与后处理的特定工艺．最后给出了１．５ＧＨｚ铌材超导腔的低温实验结果．     

粘土粒径及形态结构对粘土胶性能的影响

用超声波和离心方法将３种来源不同的粘土样品按粒分径分级，测定各级分粒径比表面积和结构，并制备相应级分的粘土胶进行物理力学性能测试，结果表明，在一定范围内，粘土粒径的变化仅对粘土胶的某些力学性能产生物明显的影响，而粘土粒子以其独特的形态结构对粘土胶产生显著的补强作用。     

Preparation of Nanoelectrode Ensembles by Assembly of Nano—Silver Colloid on Gold Surface

A novel method for preparing silver nanoelectrode ensembles(SNEEs) and gold nanoelectrode ensembles (GNEEs) has been developed. Silver colloid particles were first absorbed to the gold electrode surface to form a monolayer silver colloid. N-hexadecyl nercaptan was then assembled on the electrode to form a thoil monolayer on which hydrophilic ions cannot be transfered. The SNEEs was prepared by removing thiol from silver colloid surface through applying and AC voltage with increasing frequency at 0.20V(vs.SCE). Finally,GNEEs was obtained by immersing a SNEEs into 6 mol/L HNO3 to remove the silver colloid particles. By comparison with other methods such as template method ect., this method enjoys some advantages of lower resistance, same diameter,easy preparation,controllable size and density.     

Crystal Structure and Characterization of a Large Polyoxotungstate (NH4)21{La(H2O)5[Ni(H2O)]2As4W40O140}·53H2O

The heteropolytungstate (NH4)₂₁{La(H₂O)₅[Ni(H₂O)]₂As₄W₄₀O₁₄₀}·53H₂O is obtained by the reaction of Na₂₇[NaAs₄W₄₀O₁₄₀]· 60H₂O with NiCl₂·6H₂O, La(NO₃)₃·6H₂O and NH₄Cl at pH‐4.5. The structure and chemical composition are determined by X‐ray diffraction analysis and elemental analysis. The crystal data and main structure refinement are a = 1.9551(3) nm, b = 2.4156(4) nm, c= 3.7068(6) nm, β = 91.505(3)°, V = 17.500 (5) nm³, monoclinic crystal system with space group P2₁/n, Z = 4, R₁ = 0.0573, wR₂ = 0.0717 [I >2<s?(I)], R₁, = 0.2463 and wR₂ = 0.1199 (all data). [La(H₂O)₅] {Ni(H₂O)}₂AS₄W₄₀O₁₄₀ has C₂, symmetry. IR spectra of the ligand [NaAs₄W₄₀O₁₄₀]^27‐ and its three complexes were discussed.     

The preparation of nano‐scope chitosan‐oligomer copper complexes and their interaction with DNA

Water‐soluble low molecular weight chitosan of nanometer level and its copper complexes were prepared, and characterized by IR spectra, elemental analysis and gel permeation chromatography (GPC). The modes and mechanism of these copper complexes interaction with DNA were studied by a fluorescent probe method and electrophoresis analysis. It is suggested that there are electrostatic and intercalation modes of copper complexes interacting with DNA. At first, the cationic complex electrostaticly binds to the negatively charged phosphate backbone of DNA, and then a portion of the complex intercalates between the base pairs on the DNA duplex strand. Copyright © 2005 John Wiley & Sons, Ltd.     

细胞色素b5Glu44,Glu56的定点突变和蛋白质结构比较

用寡聚核苷酸定点突变的方法将牛肝细胞色素ｂ５基因上第４４位和５６位谷氨酸的密码子ＧＡＡ变成氨酸的密码子ＧＣＴ，获得突变体Ｅ４４Ａ，Ｅ５６Ａ和Ｅ４４／５６Ａ的基因。 它们分别克隆于ＰＵＣ１９上，转化大肠杆菌ＪＭ８３后，突变基因得到成功的表达。     

VA族元素对阳极铅(Ⅱ)氧化物膜半导体性质的影响(Ⅱ)

用光电化学电流法研究了铅、铅砷、铅锑和铅铋合金在4．5mol·L－1H2SO4溶液（22℃）中，以0．9V（vs．Hg／Hg2SO4）极化7h而形成的阳极膜中的氧化铅的半导体性质，合金添加剂砷、锑和铋对t－PbO（四方氧化铝）和o-PbO（斜方氧化铝）的禁带宽度没有影响，从量子效率和电位的关系可求Pb，Pb－lat％As（at％表示原子百分比，全文同），Pb-lat％Sb和Sb－lat％Bi上膜中t－Pbo的施主密度（ND）分别为9．3×1015，1．0×1016，3．1×1016和1．3×1017cm-3，平带位分别为-0．20，－0．22，－0．28和-0．08V（vs．Hg／Hg2SO4）．比较VA元素砷、锑和铋对上述膜中t－Pbo的ND（从而自由电子密度）和膜中t－Pbo的生长速率的影响，可认为法添加剂砷、锑和铋对阳极膜中t-Pbo的作用符合Hauffe规则．     

希土烯丙基化合物的研究——Ⅷ.镝、钬、铒、镱和镥的2-甲基烯丙基化合物的合成

用无水希土氯化物与2-甲基烯丙基氯化镁及四甲基乙二胺,0℃下,在四氢呋喃中反应,加乙醚后可得到五个含2-甲基烯丙基的重希土元素的化合物。经元素分析、红外光谱和质谱分析的鉴定,确定该化合物的组成为Ln(C₄H₇)₂Cl₅Mg₂(tmed)₂。     

碱性二苯基萘基甲烷染料褪色分光光度法测定肝素

肝素(Heparin, Hep)由葡萄糖胺磺酸、葡萄糖醛酸和艾杜糖醛酸组成, 在水溶液中由于其酸性基团的离解而成为带多个负电荷的大阴离子[1].肝素具有广泛的生物学功能, 在人体内由肥大细胞分泌而自然存在于血液中, 在体内外均有延缓或阻止血液凝固的作用. 肝素或其衍生物还可用于调血脂、抗血栓、改善血液流变学指标、抗炎、抗过敏及免疫调节等, 是重要的生化药物之一 [2]. 对不同的疾病, 肝素有不同的最适剂量, 临床上常采用生物方法 [3]来进行监控. 但由于受生物个体的影响较大, 故使其应用受到限制. 此外, 分光光度法 [1,4,5]、荧光法[6]、HPLC法[7]、细管电泳法[8]及电化学传感器[9]已用于肝素的测定, 其中分光光度法由于操作简便、快速、仪器价廉和灵敏度较高等优点而得到重视.     

五硼酸钾部分高温特性的研究

研究了高温下水蒸汽及氯化钠或氯化钾对五硼酸钾的影响。借助自行设计的反应器与XRD、Raman光谱分析高温水蒸汽气氛下五硼酸钾的结构变化，证明了无论在其熔融态还是固态都会与水蒸汽发生反应，使产物中的K₂O含量升高，B₂O₃与水结合从五硼酸钾中脱离。利用DTA、XRD分析绘制了KB₅O₈-MCl（M＝K、Na）体系熔度图，属简单低共熔型，低共熔点分别为x_KCl=50%、 742 ℃，x_NaCl=20%、 689 ℃。