抗氧化剂活性的电子顺磁共振（EPR）研究

抗氧化剂在化工、食品以及生命科学等领域具有重要的作用,近年来更是由于其在解决与人类健康相关问题方面所起到的重要作用而受到广泛重视。本综述较为详细地介绍了利用电子顺磁共振（EPR）技术测定抗氧化剂活性的原理和方法,系统总结了近年来在天然抗氧化剂以及合成抗氧化剂化学活性方面的EPR研究最新进展,特别是定量测定表征抗氧化活性...     

用电子自旋共振谱研究我国一些煤的自由基

本文用电子自旋共振谱(ESR)研究了我国十种不同变质程度的煤。电子自旋共振最重要的参数是g值、自由基的浓度、线宽和线形。用这些参数与煤中的碳、氧等元素相关联,发现ESR参数与煤的变质程度有密切关系。     

铜(Ⅱ)-羟肟络合物的电子自旋共振谱研究

本文报导芳香族羟肟铜(Ⅱ)络合物的电子自旋共振(ESR)谱的研究。讨论了这类配位体上取代基的电子效应对络合物中铜(Ⅱ)的超精细分裂常数A_(Cu)值的影响,以及A_(Cu)值与这些配位体萃取铜的分配系数的关系。     

若干铬(III)含β-二酮混配配合物的冷冻态顺磁共振谱研究

本文对若干新型Cr(β-dik)Cl2Py2混配配合物的冷冻玻璃态顺磁共振谱进行了研究, 运用Powell优化法得了自旋哈密顿参数g、D、E值, 并利用这些参数计算和绘制了共振磁场位置与角度变化图, 结果表明这套参数的确定是合理的.     

锂嵌碳的磁共振研究

本文综述了十数年来电子自旋共振(ESR)和7Li核磁共振(7Li-NMR)技术用于锂嵌碳研究的进展.ESR研究发现锂嵌碳材料中存在两种电子自旋.一种来自碳材料中的载流子电子,称为Pauli自旋.从Pauli自旋的ESR强度可推算给定锂嵌碳样品的电子态密度曲线,并进而计算能带模型机理对该样品嵌锂容量的贡献.另一种来自局域化自旋,即Curie自旋,其与嵌锂位置的关系尚不清楚.7Li-NMR测试已发现几个不同的谱峰,其峰位和强度随碳样品性质和嵌锂深度而异.一般认为,45±5×10-6(即ppm,下同)处的NMR谱线源于深度嵌锂(在LixC6中x=0.5～1)石墨化结构中的Li+,属于Knight位移;而明显小于45×10-6的谱峰则可能是来自碳材料中石墨化微结构中低浓度Li+的Knight位移,也可能是于无序微结构中共价结合的Li的化学位移.ESR与7Li-NMR在研究锂嵌碳方面有很强的互补性,联合应用此两技术可望对深入认识锂嵌碳材料的构效关系作出新贡献.     

石英的顺磁中心在电子自旋共振测年中的特性及应用

沉积物的电子自旋共振测年是利用石英矿物中的顺磁中心浓度确定总辐射能量,进而推定石英矿物的埋藏年代。石英中可用于测年的顺磁中心包括E′心、Al心、Ti心和Ge心。E′心需要经过热活化后才能测年。Al心是一种电子空穴心,在低温下可观测到较强的信号值。光照可以使Al心漂白,但有残留值存在。Ti心、Ge心都是电子中心,Ti心在低温测试中可见,信号微弱。Ge心光晒退最敏感,在常温观测中可见。不同顺磁中心的形成机理不同,导致它们具有不同的特性,适用于不同沉积环境中的样品测年,在冰碛物中Ge心测年更具有可行性。电子自旋共振测试时降低温度可使信号增强,Ti心在10 K和15 K时信号强度最大;Al心在20 K时信号最强;Ge心在200 K时信号明显增强。在电子自旋共振测年中可根据不同顺磁中心信号强度的变化调整测试温度获得信号的最优值。在以后的电子自旋共振(ESR)测试中可以选取信号最强时的测试温度进行测试,以增强微弱信号的信噪比,有利于对复杂的信号形态的分辨确定,提高对信号强度定量的准确性。     

SA耐火材料多晶结构与性能的研究

本实验采用磨具废砂和炉皮SiC废砂生产SA耐火材料，通过XRD分析和计算机处理确定各试样中的晶相（4H－SiC，33R－SiC，3C－SiC，α－Al2O3，β-石英和Al6Si2O13）及其各相的含量。通过材料性能与结构综合分析，确定较好的配方，其含量：磨具废砂50％，炉皮砂45％，结合剂5％，外加矿化剂2％。     

电子自旋共振光谱在研究血红素蛋白及其模拟化合物中的应用

介绍电子自旋共振（ＥＳＲ）的基本原理，及ＥＳＲ在血红素蛋白及其模拟化合物铁卟啉的结构、性能、中心铁离子的状态等研究中的应用，以及用ＥＳＲ参数进行晶体场合分析的方法。     

我国一些煤的顺磁共振谱研究

自从1954年Ingram和Ubessfeld分别报导关于煤中含有稳定的游离基之后,国外一些学者相继用顺磁共振法研究他们本国昀煤。本文则用顺磁共振法对我国不同矿区的11种煤(云南开远、吉林舒兰、内蒙宁城褐煤,北京长沟峪无烟煤,山东新泰     

多组分丝素蛋白-Cu(II)配合物的EPR谱解析

基于二阶微扰理论建立了对具有超精细耦合结构的多组分复杂EPR(顺磁共振)谱的解析拟合方法, 并以丝素蛋白-Cu(II)配合物的EPR谱为例进行解析分析, 从而有效地解释了Cu(II)离子在蚕吐丝过程中的作用. 该方法和应用程序能为类似问题的解决(如Fe(II)、Mn(II)、V(III)及其它顺磁性离子配合物EPR谱的解析)提供方便.     

多组分丝素蛋白-Cu(II)配合物的EPR谱解析

基于二阶微扰理论建立了对具有超精细耦合结构的多组分复杂EPR(顺磁共振)谱的解析拟合方法,并以丝素蛋白-Cu(II)配合物的EPR谱为例进行解析分析,从而有效地解释了Cu(II)离子在蚕吐丝过程中的作用.该方法和应用程序能为类似问题的解决(如Fe(II)、Mn(II)、V(III)及其它顺磁性离子配合物EPR谱的解析)提供方便.     

聚偏二氟乙烯晶体的电子结构和光学性质

利用含Tkatchenko-Scheffler(TS)色散修正的密度泛函理论的第一性原理方法对九种聚偏二氟乙烯(PVDF)晶相的电子结构和光学性质进行了计算. 结果表明,PVDF晶体作为一种绝缘体,能带具有密集且平直等特征,其带隙值在6.05-7.34 eV之间,且和实验值接近. 价带主要是F原子的2s和2p态起主要贡献,导带主要由C原子的2p态和H原子的1s态共同参与构成. 在0-35 eV光子能量范围内,介电函数、吸收率、反射率和折射率等光学性质发生变化主要在深紫外区域. 根据介电函数等光学参数的谱特点,可以将九种PVDF的晶相划分为{Ⅰ_p},{Ⅱ_pu},{Ⅱ_au,Ⅱ_ad,Ⅱ_pd,Ⅲ_pu},{Ⅲ_au,Ⅲ_ad,Ⅲ_pd}等四类,每一类都具有相似的光学参数特点.     

Evaluation of the surface properties of dextran-coated poly(isobutylcyanoacrylate) nanoparticles by spin-labelling coupled with electron resonance spectroscopy

Poly(alkylcyanoacrylate) nanoparticles are developed as carrier for the in vivo delivery of drugs. In this area of research, one of the major challenges is to design nanoparticles able to carry a drug to a specific site in the body. This appears to be mainly governed by the surface properties of the carrier. Results from previous independent studies suggest that the way dextran chains are arranged at the nanoparticle surface can affect the in vivo fate of the carrier. Thus, the purpose of the present study was to investigate for the first time whether electronic paramagnetic resonance (EPR) could highlight a difference between the physico-chemical surface properties of dextran-coated nanoparticles obtained by two different emulsion polymerisation mechanisms of isobutylcyanoacrylate. Poly(isobutylcyanoacrylate) nanoparticles were prepared either by anionic or by radical polymerisation, initiated in both cases by dextran. The respective copolymers self-organised as nanoparticles. Dextran chains located at the nanoparticle surface could be labelled with a free nitroxide radical containing a probe and EPR analysis could be performed on freeze-dried nanoparticles, rehydrated nanoparticles and dispersed nanoparticles in water. The mobility of dextran chains appeared to differ according to the degree of hydration of the systems. More interestingly, EPR spectra clearly highlighted differences in dextran chain mobility comparing the nanoparticles obtained by radical and anionic polymerisation. Therefore, this technique opens an interesting prospect of investigating surface properties of polysaccharide-coated nanoparticles by a new physico-chemical approach to further correlate the mobility of the polysaccharide chains with the fate of the nanoparticles in biological systems.     

聚偶氮乙烯及其异构体分子的稳定性差异和电子性质的量子化学研究

采用量子化学MNDO和CNDO/2-CO计算方法,对聚偶氮乙烯(C₂H₂N₂)₂3种异构体的稳定性进行了比较,指出聚偶氮乙烯和聚异亚甲基亚胺分子的稳定性比聚亚甲基亚胺高,分析了造成稳定性差异的原因。能带结构计算表明:三者中聚异亚甲基亚胺的导电性能最好,可望具有较高的本征和掺杂电导率。     

Single crystal EPR and optical studies of paramagnetic ions doped zinc potassium phosphate hexahydrate—Part I: Cu(II)—a case of orthorhombic symmetry

Single crystal electron paramagnetic resonance (EPR) studies on Cu(II) doped zinc potassium phosphate hexahydrate (ZPPH) were carried out at room temperature. The angular variation spectra in the three orthogonal planes indicate that the paramagnetic impurity has entered the lattice substitutionally in place of Zn(II) and the spin Hamiltonian parameters calculated from these spectra are g(xx) = 2.188, g(yy) = 2.032, g(zz) = 2.373, Axx = 50 G, Ayy = 65.0 G and Azz = 80 G. The g and A tensors were coincident and these values matched fairly well with the values obtained from powder spectrum. The bonding parameters have also been calculated.     

Electronic and Functional Structure of Copper in Plant Cu/Zn Superoxide Dismutase with Combined Site-directed Mutagenesis and Electron Paramagnetic Resonance

Arabidopsis thaliana copper-zinc superoxide dismutase 1 (AtSOD1) is a typical metalloenzyme conferring cellular protection against the excessive accumulation of toxic reactive oxygen species, and is therefore considered as a critical protein. However, the structure and function of the vital amino acids around the active site of AtSOD1 remain poorly understood. Herein, the coordinated geometry of the catalytic center in AtSOD1 was reconstructed by electron paramagnetic resonance (EPR) technique, and it was found to be composed of copper and four histidine (H) residues using site-directed mutagenesis. Analysis of the mutants showed that H45 and H62 play essential roles in the catalytic reaction, and H119 plays an accessary role in facilitating substrate or proton transfer. The results indicated that the redox change of the Cu ion and the overall enzymatic activity of the protein were sustained by the H45-Cu-H62 core structure. In contrast, the residue H47 showed nearly no effect on the SOD catalytic activity. These data should contribute to a deeper understanding of the catalytic mechanism of the enzyme, and provide a new approach for the effective molecular modification of copper/zinc SODs to facilitate further research in this field.     

Electron Paramagnetic Resonance Gives Evidence for the Presence of Type 1 Gonadotropin-Releasing Hormone Receptor (GnRH-R) in Subdomains of Lipid Rafts

This study investigated the effect of type 1 gonadotropin releasing hormone receptor (GnRH-R) localization within lipid rafts on the properties of plasma membrane (PM) nanodomain structure. Confocal microscopy revealed colocalization of PM-localized GnRH-R with GM₁-enriched raft-like PM subdomains. Electron paramagnetic resonance spectroscopy (EPR) of a membrane-partitioned spin probe was then used to study PM fluidity of immortalized pituitary gonadotrope cell line αT3-1 and HEK-293 cells stably expressing GnRH-R and compared it with their corresponding controls (αT4 and HEK-293 cells). Computer-assisted interpretation of EPR spectra revealed three modes of spin probe movement reflecting the properties of three types of PM nanodomains. Domains with an intermediate order parameter (domain 2) were the most affected by the presence of the GnRH-Rs, which increased PM ordering (order parameter (S)) and rotational mobility of PM lipids (decreased rotational correlation time (τc)). Depletion of cholesterol by methyl-β-cyclodextrin (methyl-β-CD) inhibited agonist-induced GnRH-R internalization and intracellular Ca²⁺ activity and resulted in an overall reduction in PM order; an observation further supported by molecular dynamics (MD) simulations of model membrane systems. This study provides evidence that GnRH-R PM localization may be related to a subdomain of lipid rafts that has lower PM ordering, suggesting lateral heterogeneity within lipid raft domains.     

PDMS微流体系统的加工制作

目前,微流体装置越来越多地应用到分析系统、生物医学、化学等基础研究领域。传统的微流体系统制作方法是对玻璃和硅片进行刻蚀。用软刻法制作PDMS(Poly(dimethylsiloxane)：聚二甲基硅氧烷)微流体装置比传统的制作方法更快速,成本更低廉,并且对于通道的密封也不需要玻璃或硅芯片键合密封等复杂工艺。这类软刻法的核心技术是快速原样制作法和复制压模技术。相对于微电子加工工艺,软刻法制作过程不需要超静环境,化学家和生物学家可在普通的实验室实现加工制作。本文介绍了PDMS微装置在分离和生物材料模式化等方面的应用。     

Aggregation of Sodium 2,4,5-(tri-n-Alkyl)-benzene Sulfonates in Aqueous Solution: Micellization and Microenvironment Characteristics Studied by Electron Paramagnetic Resonance and Steady-State Fluorescence Quenching

The aggregation behaviors and microenvironmental characteristics of five sodium tri-n-alkylbenzene sulfonates (STABS) micelles have been investigated by electron paramagnetic resonance (EPR) and steady-state fluorescence quenching (SSFQ) techniques. The results indicated that the micropolarity of STABS micelles was less sensitive to the increase of the alkyl chain length, and showed slight decrease with the increasing solution concentration. The microviscosity of STABS micelles increased with the increase of the long alkyl chain length, decreased with the increase of the short alkyl chain length, and exhibited little increase when increase the solution concentration. The salinity of added inorganic salt exhibited obvious effect on the decrease of micropolarity and increase of microviscosity of STABS. These results suggested that these different alkyl chains showed different effects on the micellization of STABS and the salinity's effect was even bigger.