Formation of domain structure of erythrocyte membrane in Wistar rat fed with CeCl3 per os

To explore the possibility of absorption of lanthanides via digestive duct and their effects on the membrane structure and permeability of erythrocytes,the fine structure of erythrocyte membrane from Wistar rats,fed for 70 days of daily administration per os with 20 mg CeCl3/kg weight,was imaged by means of atomic force microscopy and FT-IR deconvolution spectra.The results show that,although the erythrocytes maintain the intact shape,the change of secondary structure,aggregation and crosslinking of the protein particles of membrane surface and the enlarged lipid regions lead to the domain structure formation.This structure might be responsible for the increasing permeability of erythrocyte membrane.     

Crystallization and preliminary crystallographic studies of insulin T3R3 states created in different conditions

In the presence of a series of small organic molecules including 1, 4 dioxane, DMF, isopropanol, rDNA human insulin, mutants A21 Asn→Ser and (A21 Asn→Ser, B27 Thr→Arg) human insulin have been crystallized in both Zn 2+ containing and Zn 2+ free system. Preliminary crystallographic analyses show that they all belong to T 3R 3 structural type. The results indicate that, except phenolic derivatives and lyotropic anions reported before, some other appropriate organic molecules can also induce the T 3R 3 conformation transition of insulin.     

Valence electron structure analysis of refining mechanism of Sc and Ti additions on aluminum

The mechanism of the difference of refining effect between Sc and Ti adding to aluminum can not be explained substantially with traditional theory. Valence electron structures of Al-Ti and Al-Sc alloys have been studied by using the empirical electron theory of solids and molecules (EET). The covalent bond electron numbers and interfacial electron density differences are calculated. The conclusion is that, in the two alloys, different covalent bond electron numbers of nucleation particles, and different electron densities on the interface between the second phase particles and the matrix, fundamentally lead to the difference of refining effect between Sc and Ti adding to aluminum. Supported by the Research Fund for the Doctoral Program of Higher Education of China (Grant No. 20050003042)     

Layered La-Ba-Cu mixed oxides with perovskite structure as catalyst for NO reduction by CO

The mixed oxides, including LaBa₂Cu₃O₇, LaBaCu₂O₅, La₄BaCu₅O₁₂ with perovskite structure, were prepared. The catalysts were characterized by means of chemical analysis, XRD, H₂-TPR. It was found that their structures were layered ABO₃ perovskite structure and they were the active catalysts for the NO reduction by CO. The existance of Cu³⁺ is an important factor to give the catalysts a high activity for the NO reduction by CO.     

Sb2S3纳米粒子敏化ZnO微纳分级结构的光电化学性能

采用电化学沉积方法,选择聚乙二醇(PEG-400)和乙二胺(EDA)为添加剂,直接在ITO导电玻璃上制备了有序阵列的ZnO纳米棒,以及ZnO纳米棒上生长纳米棒微纳分级结构。采用化学浴沉积法均匀沉积Sb2S3纳米粒子,制备了Sb2S3/ZnO纳米棒壳核结构和Sb2S3/ZnO纳米棒上生长纳米棒分级壳核结构。利用扫描电子显微镜(SEM)、X射线衍射(XRD)、紫外-可见吸收光谱(UV-vis)、瞬态光电流等分析手段对其形貌、结构和光电化学性能进行了表征和测试。研究表明,Sb2S3/ZnO纳米棒上生长纳米棒分级壳核结构阵列膜的光电流明显高于Sb2S3/ZnO纳米棒壳核结构阵列。     

大鼠记忆保持能力与相关脑区突触界面结构的相关性

采用一次性被动回避反应的大鼠模型，以ＳＴＬ为指标将大鼠发为记忆保持良好组和记忆保持低劣组。通过超微结构定量分析，发现记忆保持良好组海马ＣＡ３区和大脑皮质感觉运动区的突触后膜致密物质均显著地密于记忆保持低劣组。同时，记忆保持良好组出现了棘器和穿孔性突触，而记忆低劣组没有出现。另外，还测量了突触界面曲率、突触活性区长度和突触间隙宽度，所得数据在２组间无显著性差异。结果提示：突触后膜致密物质厚度与记忆保     

Effects of La3+ and Gd3+ on Ca2+ influx in rat hepatoma H-35 cells

Effects of La³⁺ and Gd³⁺ on Ca²⁺ influx were investigated in rat hepatoma H-35 cells by measuring the initial rate of⁴⁵Ca²⁺ uptake. It was found that the maximum initial rate of Ca²⁺ uptake was increased six-to ten-fold at low concentrations of La³⁺ and Gd³⁺. Kinetic analyses by measuring the initial rate of Ca²⁺ influx at different external Ca²⁺ concentrations indicated the existence of two intracellular exchangeable components in the basal Ca²⁺ system, with low and high affinities for Ca²⁺, and only one class of Ca²⁺ binding sites was observed in the La³⁺-or Gd³⁺-treated cells. For high affinity, La³⁺ and Gd³⁺ increased both kinetic parametersK _m andV _max of basai Ca²⁺ influx. La³⁺ and Gd³⁺ compete directly with Ca²⁺ for Ca²⁺ binding site for low affinity. The kinetics is competitive.     

Ab initio calculation of structure and Raman and Infrared spectra of Trifluoromethylthiosulphenyl Chloride

The molecular model of Trifluoromethylthiosulphenyl Chloride, CF₃SSCl, was presented.Ab initio method was used to calculate the structure and Raman and Infrared spectra. The results show that CF₃SSCl possess stereoscopic structure ofC ₁ symmetry with a torsional angle of 94.2°. The potential energy distribution and isotope replacement methods were applied to determine the vibrational assignment. The vibrational frequencies and corresponding modes of the molecule were obtained. The calculated vibrational frequencies are in good agreement with experiments. Supported by the National Natural Science Foundation of China Zou Xianwu: born in Apr, 1938, Professor     

CaCl_2-NaCl熔盐中Fe~(3+)电化学行为的循环伏安分析

利用ZrO_2(Y_2O_3)固体电解质管集成构建Pt,O_2(air)|ZrO_2作为参比电极的电化学电池,采用循环伏安法在1273、1323、1373、1393K温度下对溶解0.5%Fe2O3的CaCl2-NaCl共晶熔盐中Fe~(3+)的电化学行为进行研究,分析了Fe~(3+)在Pt电极上的还原机理,并计算了电极反应交换电子数、Fe~(3+)扩散系数与Fe~(3+)扩散活化能等电化学参数。结果表明,在实验温度范围内,熔盐中Fe~(3+)在Pt电极上还原为Fe的反应是一步还原并受扩散控制的可逆过程;随着温度升高,Fe~(3+)扩散系数增大,Fe~(3+)扩散活化能为97.91kJ·mol-1。另外,本实验测得的Fe~(3+)扩散系数与文献值基本相符,因此,可以认为利用该电化学电池装置研究溶解有Fe2O3的CaCl2-NaCl溶盐的电化学行为是可行的。     

P3HT和Spiro-OMeTAD共混物作为光活性层的杂化太阳电池性能

为降低电荷复合率,提高杂化太阳电池的性能,将P3HT与Spiro-OMeTAD共混后的混合物作为光活性层和空穴传输层,旋涂在Sb_2S_3纳米粒子敏化的TiO_2纳米棒(TiO_2NR/Sb_2S_3)复合膜上,制备成杂化太阳电池。通过SEM、紫外可见吸收光谱、XRD、电化学阻抗图谱、稳态荧光光谱、J-V曲线等手段,对杂化太阳电池的微观结构、光电转换特性进行了表征和测试。结果表明:P3HT与Spiro-OMeTAD共混物比例为15 mg/1 mL时,得到结构为FTO/TiO_2NR/Sb_2S_3/P3HT:Spiro-OMeTAD/Ag杂化太阳电池的电荷负荷率低,电子生命长,能量转换效率达到了4.57%。所制备的杂化太阳电池性能优良,具有良好的应用前景。     

同步辐射XANES方法对FeCl3 水溶液的研究

利用X 射线近边吸收谱学(X-ray Absorption Near Edge Structure, XANES)方法研究了不同浓度的FeCl₃ 水溶液中Fe³⁺离子的电子结构和近邻结构. 在不同浓度的FeCl₃ 水溶液的XANES 谱中, XANES 谱的形状随着FeCl₃ 浓度的不同而发生改变. 在XANES 谱的边前结构中观测到边前锋的分裂, 其分裂的能量差约为1.6 eV, 随着浓度的降低约有0.2 eV 的高能方向的位移, 此边前结构由1s-3d 轨道的电子跃迁引起, 双峰分裂来源于配位体配位引起的3d 轨道分裂. 随着FeCl₃ 浓度的改变, XANES 谱的主峰也发生变化, 此变化来源于溶液中Fe—Cl 配位与Fe—O 配位的比例变化. 另外, 利用量子化学计算的方法对于Fe³⁺与不同数目的H₂O 和Cl^?配位体络合时的构型进行了计算, 得到了Fe³⁺在水溶液中近邻结构的信息, 从另一方面解释了FeCl₃ 溶液中Fe³⁺离子3d 轨道分裂能的变化     

The concentration quenching characteristics of 5D3-7FJ and 5D4-7FJ (J=0―6) transitions of Tb3+ in YBO3:Tb3+ phosphor

The photoluminescence quenching behaviors of ^5D3-^7Fj and ^5D4-^7Fj （J = 0—6） transitions of Tb^3＋ in YBO3：Tb under 130—290 nm excitation were systematically investigated. The results revealed that the quenching concentrations of both ^5D3-^7Fj and ^5D4-^7Fj transitions of Tb^3＋ in YBO3：Tb were mainly dependent on excitation wavelength. Particularly, the quenching concentrations of ^5D4-^7Fj transitions of Tb^3＋ under 130—290 nm excitation were correlated with excitation bands of YBO3：Tb. The quenching concentrations of ^5D3-^7Fj transitions remained at low concentration （2%） under 186—290 nm excitation and then increased gradually with energy of incoming excitation photon when excited at 130—186 nm. This dependence should be involved in their excitation mechanisms and quenching pathway in particular excitation region.[第一段]     

不同形貌LaBO_3型钙钛矿的制备及其催化H_2O_2分解反应性能

采用柠檬酸络合法制备了La BO3(B=Fe,Co,Ni)钙钛矿催化剂,通过X-射线粉末衍射(XRD)、傅立叶-红外光谱(FT-IR)、透射电镜(TEM)、X-射线光电子能谱(XPS)等对催化剂进行了表征,在室温下测定了其对H2O2的催化分解能力.结果表明:催化分解能力依次为La Ni O3>La Co O3>La Fe O3,说明Ni较Co和Fe能更好地分解H2O2.通过改变La Fe O3催化剂的形貌也能提高催化剂性能,如多孔状La Fe O3较负载在SBA-15上的La Fe O3具有更好的催化分解活性.     

聚乙二醇修饰的Fe3O4催化水合肼还原硝基苯

以聚乙二醇(PEG)为修饰剂,采用共沉淀法制备了磁性Fe_3O_4/PEG。用X-射线衍射仪(XRD)和傅里叶变换红外光谱仪(FTIR)对Fe_3O_4/PEG进行表征。粒子中的Fe_3O_4为立方晶系,加入PEG6000和PEG20000能有效分散Fe_3O_4,避免颗粒团聚。考察了Fe_3O_4/PEG对水合肼还原硝基苯制备苯胺的催化活性,加入PEG6000和PEG20000作为分散剂制备的Fe_3O_4/PEG具有较高的活性和较好的重复性。1.23 g(10 mmol)硝基苯,0.1 g Fe_3O_4/PEG6000(或Fe_3O_4/PEG20000)催化剂,2.0 g水合肼在乙醇中回流反应1 h,苯胺收率接近100%,催化剂重复使用9次活性基本不变。     

金属氧化物在Si3N4陶瓷烧结中的使用现状

Si₃N₄陶瓷具有较高的热导率、良好的耐磨性和耐腐蚀性,高温强度高,且高温稳定性和抗热冲击性好,作为结构材料在机械工业,电子工业和化学工业中广泛应用。由于Si₃N₄陶瓷烧结温度过高,无法在工业生产中大量使用,为了降低其烧结温度、改善烧结致密度和强度等性能,在烧结过程中经常使用烧结助剂。综述了国内外金属氧化物作为烧结助剂在Si₃N₄陶瓷烧结中的研究现状,提出了其烧结过程中存在的问题。     

Surface state of molybdenum cations in MoO3/CeO2

Conclusion  

Sb2S3对枝状TiO2阵列的修饰及其在杂化太阳电池中的应用

为了提供多条电子传输通道,增加窄禁带半导体和有机半导体的负载量,采用一步水热法,在FTO基底上制备了由纳米管和纳米线组装而成的枝状TiO₂;通过化学浴沉积法,在枝状TiO₂上成功地制备了窄禁带半导体Sb₂S₃;利用SEM,XRD,紫外-可见吸收光谱,瞬态光电流,稳态荧光光谱及J-V曲线等手段,对样品形貌、晶型、吸光性能和光电性能进行了表征和测试,探究Sb₂S₃沉积时间对电池效率的影响。结果表明：稀疏的枝状TiO₂阵列垂直于FTO导电玻璃生长,为电荷传输提供了有利条件;Sb₂S₃的加入,加强了电极材料对可见光的吸收,提高了光电流强度及荧光猝灭强度,有利于光生载流子的产生和转移;由枝状TiO₂/Sb₂S₃(3 h)/P3HT/PEDOT∶PSS/Au构成的杂化太阳电池的能量转换效率达到了1.10%,是未沉积Sb₂S₃的杂化太阳电池能量转换效率的10倍。在多级结构TiO₂上沉积Sb₂S₃,有利于提高电极材料对可见光的吸收,加强光生载流子的传输能力,拓宽光谱响应范围,提高光电性能,对于解决单纯TiO₂电极吸收强度较弱和光谱响应范围较窄等问题具有重要意义。     

Fe2O3在锂离子电池负极材料中的研究进展

近年来,锂离子电池被广泛地应用于便携式电子设备和手机,并且对于诸如电动汽车等更高要求的应用而言具有巨大的潜力。作为锂离子电池负极材料,Fe₂O₃是最有可能替代石墨的过渡金属氧化物之一。因其具有高的理论比容量（1 007 mA·h·g^-1）、储量丰富、安全性能好、无毒、环境友好和成本低等一系列优点,被广泛应用于气体传感器、催化和锂离子电池电极材料等领域,是一种具有巨大潜力的电极材料。介绍了锂离子电池的基本结构组成和工作原理,综述了Fe₂O₃的储锂机制和制备方法,总结了近年来Fe₂O₃以及它的复合物作为锂离子电池负极材料的研究进展。