丙炔醇环四聚体的辐射化学研究

用γ-射线对丙炔醇环四聚体的晶体进行照射,无色透明的晶体逐渐变为棕色;利用红外光λ和核磁共振等方法研究了晶体的变化;ESR证实辐照产生了大量的自由基,测得自由基的g值是2.0048,自旋浓度为10~(17)～10~(17)spins/g;对晶体进行加热处理表明该自由基在低于110℃时相当稳定,很少复合,但可发生自由基反应而生成更稳定的自由基;探讨了自由基的碎裂、复合生成聚合产物以及通过链反应生成高聚物的机理。     

自由基诱导的水溶液中氟西汀的降解:脉冲辐解及稳态辐照研究（英文）

本文运用脉冲辐解探究了不同自由基与药物氟西汀(FLX)之间的反应。羟基自由基(?OH)与FLX反应生成苯环上的羟基加成物,而硫酸根阴离子自由基(SO_4?~-)则通过单电子氧化FLX生成苯阳离子自由基,该中间产物再进一步与水反应生成苯环上的羟基加成物。本研究测定了三种自由基?OH,水合电子(e_(aq)~-)以及SO_4?~-与FLX反应的反应速率常数分别为:7.8×10~9,2.3×10~9和1.1×10~9mol?L~(-1)?s~(-1)。本文还运用电子束辐照技术探究了不同辐照条件下的FLX降解效果,结合HPLC和紫外可见光谱仪进行分析。在N_2O和空气饱和的两种条件下,FLX溶液经1.5 k Gy辐照后降解效率均达到90%以上,而N_2饱和条件下,加入0.1 mol?L~(-1)的叔丁醇的FLX溶液经1.5 k Gy辐照后仅有43%分解。此外,酸性和中性条件下FLX的降解效率均大于碱性条件下的。结果阐明了饱和空气的FLX溶液在中性条件下的降解效果最佳,且?OH诱导的反应比SO_4?~-更有利于FLX的分解。本研究期望对于进一步探究FLX的降解反应提供有益的帮助。     

六氟丙烯等离子体聚合物的ESR研究

等离子体聚合物中存在高浓度的自由基已是众所周知的。Millard得出等离子体聚四氟乙烯的自由基浓度为10~(20)spins/g,其室温真空中的半衰期仅为16天。本文报导等离子体聚六氟丙烯的自由基反应动力学、反应的活化能及不同温度下的反应速率常数。     

预辐照聚三氟氯乙烯薄膜接枝苯乙烯的研究

预辐照聚三氟氯乙烯薄膜的过氧化含氟自由基室温衰变缓慢,可长期生存。预辐照的有效期可超过六年,研究了苯乙烯接枝反应时的温度、无机盐添加剂和有机溶剂的影响。观察到较低温度能提高接枝率。添加三氯化铁能有效地抑制苯乙烯自聚反应,并研究了聚三氟氯乙烯-苯乙烯接枝共聚物的结构特征。     

γ射线辐射医用级超高分子量聚乙烯自由基的演变

采用γ射线对医用级超高分子量聚乙烯(UHMWPE)进行辐照处理, 利用电子自旋共振波谱仪(ESR)研究了辐照诱导自由基的种类及其在氩气和不同氧分压下的衰减行为. 在氩气中, 辐射诱导UHMWPE主要产生烷基自由基和烯丙基自由基, 总的辐射化学产额约为0.48/100 eV. 室温下烷基自由基的稳定性差, 其寿命仅有 1 d左右. 在含氧气氛中, 自由基主要通过氧化反应而衰减, 其衰减速率随氧分压的增加而增加, 半衰期则由1×10⁵ Pa氩气中的224.0 h降至5×10⁵ Pa O₂气中的1.8 h. 根据此结果推算, 室温下陷落在晶区的自由基迁移至微晶表面的速率非常快, 仅需小时量级.     

γ射线辐射诱导聚碳硅烷自由基的衰变

利用电子自旋共振波谱(ESR)研究了在N2气中γ射线辐射诱导聚碳硅烷(PCS)自由基的产生和演变行为.ESR谱图分析结果表明,γ射线辐射诱导PCS产生的自由基为硅自由基(≡Si·).低剂量辐照时硅自由基的浓度随吸收剂量的增加而线性增加,硅自由基的辐射化学产额G值约为9,吸收剂量达到200 k Gy后,硅自由基的浓度趋于饱和.室温下硅自由基的浓度随存储时间的延长而逐渐降低,在N2气中存储时硅自由基的半衰期约23 d,在空气中存储时硅自由基的氧化反应导致衰减速率加快,半衰期仅为8 h.温度升高硅自由基衰减速率加快,在N2气中250℃加热处理可以完全清除硅自由基.     

聚酯纤维与丙烯酸的辐照-过氧化法接枝聚合

聚对苯二甲酸乙二醇酯纤维在空气氛中经γ-射线辐照生成大分子过氧化物,通过联氨-铜离子催化分解生成大分子自由基,在丙烯酸水溶液中进行接枝反应,丙烯酸的接枝率不受介质中氧的影响。根据接枝条件,有一个对接枝最有利的联氨浓度范围。在铜离子浓度0—2.5×10~(-3)克分子/升的实验范围内,接枝率随铜离子浓度而增加。     

γ-辐照聚全氟乙丙烯的电子自旋共振研究 Ⅱ.真空中俘获自由基的自氧化过程

电子自旋共振(ESR)研究表明: (1)在真空中γ-辐照F_(46)产生的俘获自由基暴露于空气后逐渐转化成过氧化自由基,其常温ESR谱为单峰,g=2.0148±0.0009,ΔH_(PP)=18.9±1.5G. (2)F_(46)真空中俘获自由基的自氧化反应是一个既受氧的扩散速度控制,又与自由基浓度有关的双因素控制的过程,而与自氧化反应的速度常数无关. (3)氧在γ-辐照F_(46)中的扩散系数与自由基浓度有关,而与自由基种类无关.在自氧化过程中位于晶区的仲碳自由基…CF_2-CF-CF_2…从晶区内部快速“转移”到晶区表面与氧反应. (4)以ESR方法用单纯扩散动力学公式测定的氧在全氟型高聚物中的扩散系数,一般是以自由基浓度为函数的表观扩散系数,仅当自由基浓度足够低时(对于本文所采用的悬浮法F_(46)薄膜样品而言,n≤2×10~(17)spins/g)才能求得接近未辐照样品时的真实扩散系数. (5)用本法求得氧在悬浮法F_(46)薄膜中的扩散系数D=1.6×10~(-7)cm~2/sec(20℃).     

壳聚糖在水溶液中的辐射降解反应

研究了壳聚糖在CH3COOH/NaCl缓冲溶液均相体系下的辐射降解反应,给出了H2O2、异丙醇、pH、样品初始分子量等因素对壳聚糖降解的影响,探讨了实验条件下溶液中不同自由基对壳聚糖降解的作用,并对辐照前后壳聚糖的结构进行了表征.结果表明,酸性条件下,壳聚糖的降解主要由.H和.OH自由基共同作用引起,加入H2O2或者通入N2O都能够略微提高.OH自由基浓度,对壳聚糖的降解有促进作用.加入异丙醇后,由于同时降低了.H和.OH自由基浓度,导致壳聚糖降解缓慢.当溶液的pH接近中性后,对壳聚糖的降解起主要作用的为.OH自由基,加入H2O2或者通入N2O都会增加.OH自由基的浓度,从而明显提高壳聚糖的降解速率.此外,研究发现低分子量的壳聚糖具有较快的降解速率.样品的UV、FTIR分析表明,辐照后除在壳聚糖分子链端生成羰基外,壳聚糖主链结构未见变化,脱乙酰度也没有显著改变,显示出辐射降解是一种有效的控制壳聚糖分子量方法.     

点缺陷引起中子辐照MgO(110)单晶的铁磁性（英文）

对Mg O(110)单晶进行中子辐照,辐照剂量从1.0×10~(16)到1.0×10~(20) cm~(-2)。基于黄昆漫散射理论,我们计算了Mg O晶体中的立方缺陷和偶极力缺陷引起的X射线漫散射强度分布图。通过X射线漫散射及紫外-可见光(UV-Vis)吸收光谱实验表征了晶体的点缺陷组态,并利用超导量子干涉仪(SQUID)测量了样品的磁性。ω–2θ和摇摆曲线说明Mg O单晶经中子辐照后产生了晶格畸变,晶体中存在一定浓度的点缺陷。倒易空间图(RSM)显示中子辐照的Mg O单晶存在漫散射现象。与计算得到的漫散射分布图对比分析可知,中子辐照的Mg O(110)单晶中产生了弗仑克尔缺陷。UV-Vis吸收光谱表明所有辐照晶体中存在阴离子单空位缺陷。辐照剂量较高(1.0×10~(19)和1.0×10~(20) cm~(-2))的样品中存在O空位的聚集。磁性测量显示中子辐照后的Mg O(110)单晶在室温下依然是抗磁性,但在低温下具有铁磁性,最大饱和磁化强度达到0.058 emu·g~(-1)。通过中子辐照的方法,可以使Mg O(110)单晶产生点缺陷引起的低温铁磁性。利用F色心交换机制可以解释中子辐照Mg O晶体中的O空位缺陷与铁磁性之间的关系。     

脂氧合酶催化双高-γ-亚麻酸脂质过氧化产生的碳自由基的结构确证

采用液相色谱-电子自旋共振波谱(LC/ESR)联用技术、液相色谱-质谱(LC/MS)联用技术结合自旋捕集技术,研究了脂氧合酶(LOX)催化双高-γ-亚麻酸(DGLA)脂质过氧化过程中产生的碳自由基.以α-[4-吡啶基-1-氧]-N-叔丁基氮酮(POBN)为自旋捕集剂,在LOX-DGLA反应混合物中与碳自由基形成自旋加合物后,根据各加合物在LC/UV/ESR和LC/MS中对应的保留时间,确定加合物的分子量,进一步根据加合物质谱裂解方式确定其结构.结果表明,在LOX催化DGLA脂质过氧化过程中产生的碳自由基主要包括~·C_7H_(13)O_2,~·C_(10)H_(17)O_2和~·C_5H_(11),分别来自DGLA脂氧自由基(8-,11-,15-LO~·)的β-裂解.此结果有利于进一步研究DGLA在体内的脂质过氧化过程及该过程中产生的碳自由基的生理作用.     

盐酸克伦特罗在乙炔黑电极上的电化学行为及其分析测定研究

研究了盐酸克伦特罗(CLB)在乙炔黑电极上的电化学行为,发现阴离子表面活性剂十二烷基苯磺酸钠(SDBS)能显著提高CLB的氧化峰电流并降低其氧化过电位。优化了实验参数,建立了一种直接测定CLB的新电分析方法,其线性范围为1.0×10-7~7.5×10-5mol/L,开路富集1 min后的检出限为2.5×10-8mol/L。平行10次测定1.0×10-5mol/L盐酸克伦特的RSD为3.1%。方法用于猪尿中盐酸克伦特罗含量的测定。     

Kinetic scavenging effect of chinonin on no and oxygen free radicals generated from ischemia reperfusion myocardium and its protective effect on the myocardium

The kinetic scavenging effect of chinonin on NO and oxygen free radicals generated from ischemia reperfusion myocardium and its protective effect on the myocardium were studied by electron spin resonance (ESR) spin trapping technique. It was found that after 20 minutes ischemia, the first peak of oxygen free radical appeared at about 0.5 minutes after the beginning of reperfusion, then the release of oxygen free radicals decreased with time. The second peak appeared at about 3 minutes. Similarly, there were two peaks of creatine kinase (CK) release, which indicated the myocardial damage, the first one appeared concomitantly with the first oxygen free radical peak but the second one appeared later about 1 minute after appearance of the second peak of oxygen free radicals. The release of NO free radicals was not significant in the absence of L-arginine. However, it increased significantly in the presence of L-arginine and it also possesses a biphase profile. It could protect the ischemia-reperfusion damage in the presence of low concentration of L-arginine (0.1 mM), but in high L-arginine concentration (10 mM) it generated higher concentrations of NO leading to a more serious ischemia-reperfusion damage. Addition of chinonin could scavenge the free radicals and protect the ischemia-reperfusion injury, especially in the second phase. The reduction stoichiometry of chinonin for Fe(III) was measured.     

Metabolic activation of chemical carcinogens and binding of metabolites with nucleic acid bases

A free radical was produced enzymatically by incubating benzo(a)pyrene with liver microsomes. This radical, identified as the 6-oxybenzo(a) pyrene radical, was sufficiently reactive to bind covalently with nucleic acid bases. Similar reactive free radicals were produced enzymatically from anthanthrene and 10-aza-benzo(a)pyrene, which are carcinogenic in spite of lacking so-called “bay regions.” Hepatocarcinogens such as 3′-methyl-4-dimethylaminoazobenzene and related compounds, naphthylamines, and 2-acetylaminofluorene yield free radicals after being incubated with liver microsomes. Thus, various kinds of chemical carcinogens are found to be converted to free radicals, suggesting causal significance for the formation of free radicals in chemical carcinogenesis.     

Kinetics and mechanism of acrylonitrile polymerization by p-toluenesulfinic acid. III. Initiation through disproportionation

A mechanism for radical formation from aromatic sulfinic acids through the disproportionation reaction is suggested. It is postulated that two parallel steps, one a bimolecular reaction and the other involving a trimer of sulfinic acid, yield sulfenyl sulfonate. This labile compound decomposes into free radicals or reacts with another molecule of sulfinic acid producing thiol sulfonate and sulfonic acid. This mechanism explains the variety and unusually high orders encountered in polymerization initiated by sulfinic acid initiators. The proposed kinetic scheme is in agreement with the proton dependence found for both the initiation as well as the disproportionation reactions.     

UV-induced free radicals in oriented DNA.

Abstract— Samples of oriented DNA containing 30% water were UV-irradiated at 77 K and investigated by electron paramagnetic resonance (EPR). The EPR spectra recorded in directions parallel and perpendicular to the DNA fibre direction showed that at low UV doses the induced free radicals are very similar to those induced by γ-irradiation at the same temperature. The γ-induced free radicals have previously been analysed and found to consist mainly of anionic free radicals on thymine and cationic free radicals on guanine. At higher UV doses or by suitable annealing of the samples given a low UV dose, significant amounts of hydrogen-addition radicals on thymine were observed. The quantum yield of free radical formation for irradiation at 300nm ± 10nm was estimated to 10^--⁴. We also made a quantitative determination of the UV-induced free radicals inside an optically effective volume of the sample. The following free radical induction frequencies at 77 K were estimated: γ-rays: 2 × 10^--¹² free radicals per rad per dalton and UV (300nm): 6 × 10^--¹² free radicals per J/m² per dalton.     

Surface characterization and radical decay studies of oxygen plasma‐treated PMMA films

Polymethylmethacrylate (PMMA) films were modified by RF oxygen plasma with various powers applied for different periods, and the effects of these parameters on the surface properties such as hydrophilicity, surface free energy (SFE), chemistry, and topography were investigated by water contact angle, goniometer, X‐ray photoelectron spectroscopy (XPS), and atomic force microscopy, and the types of the created free radicals and their decay were detected by electron spin resonance spectroscopy (ESR). SFE and contact angle results varied depending on the plasma parameters. Oxygen plasma treatment (100 W–30 min) enhanced the hydrophilicity of PMMA surface as shown by decreasing the water contact angle from 70° to 26°. XPS analysis showed the change in the amounts of the present functionalities as well as formation of new groups as free carbonyl and carbonate groups. The roughness of the surface increased considerably from ~2 nm to ~75 nm after 100 W–30 min oxygen plasma treatment. ESR analysis indicated the introduction of peroxy radicals by oxygen plasma treatment, and the intensity of the radicals increased with increasing the applied power. Significant decrease in radical concentration was observed especially for the samples treated with higher powers when the samples were kept under the atmospheric conditions. As a conclusion, RF plasma, causes changes in the chemical and physical properties of the materials depending on the applied parameters, and can be used for the creation of specific groups or radicals to link or immobilize active molecules onto the surface of a material. Copyright © 2012 John Wiley & Sons, Ltd.     

SINGLE IONIC CONDUCTI0N OF POLYSILOXANE CONTAINING PROPYLENE CARBONATE GROUP AND LITHIUM POLYMERIC SALTS

The polysiloxane containing propylene carbonate side group and several lithium poly-meric salts were synthesized. The structure were confirmed by IR, NMR and XPS. Theblending systems of polysiloxane containing propylene carbonate group with different lithiumpolymeric salts were studied by ion conductivity XPS and DSC. Different lithium poly-meric salts in the blending system lead to conductivity arranged in the following sequence:poly(lithium ethylenebenzene sulfonate methylsiloxane)>poly(lithium propionate methyl-siloxane)>poly(lithium propylsulfonate methylsiloxane)>poly(lithium styrenesulfonate).In the blending system the best single ion conductivity was close to 10~(-5) Scm~(-1) at roomtemperature. XPS showed that at low lithium salt concentration the conductivity increasedwith the increasing content of lithium salt, in consequence of the increase of free ion andsolvent separated ion pair. At high lithium salt concentration the free ion was absent andthe solvent-separated ion pair functioned as carrier.     

Effect of gamma irradiation on antiradical activity of goji berry fruits (Lycium barbarum) evaluated by EPR spectroscopy

Antiradical activity of goji berry (Lycium barbarum) was evaluated by means of electron paramagnetic resonance spectroscopy. The goji berry samples were exposed to gamma-irradiation at doses 0.05, 2 and 10 kGy. The characteristic satellite lines from cellulose radicals can prove irradiation treatment. Their intensity increase after alcohol washing and lyophilization. The fading property of satellite lines show that identification of radiation treatment is possible for 50 days. The effect of irradiation on antiradical properties of goji berry extracts was investigated by radical scavenging activity using the stable free radical 1,1-diphenyl-2-picrylhydrazyl (DPPH). The percentages of scavenged DPPH radicals and IC₅₀ of the extracts of goji berry before and after irradiation were calculated. The antioxidant capacity was presented in Trolox Equivalents as well. It was found out that gamma irradiation of goji berry fruits increases its antiradical activity.

     

A STUDY OF AQUEOUS SOLUTIONS OF NUCLEIC ACID CONSTITUENTS EXPOSED TO MONOCHROMATIC 160 nm VACUUM-UV LIGHT BY SPIN-TRAPPING METHOD

Spin-trapping technique was employed to detect and identify free radical intermediates produced in aqueous solutions of nucleic acid constituents (pyrimidine bases and pyrimidine nucleosides) after irradiation by monochromatic 160 nm vacuum-UV light from the electron storage ring. Short-lived free radicals produced in the molecules were converted into relatively long-lived free radicals (spin-adducts) by the reaction with MNP used as a spin trap. The resulting nitroxide radicals were subsequently analysed by esr.
The esr measurements were made after irradiating H₂O solution containing sample and the spin trap and once freeze-drying it and re-dissolving the residual powder in D₂O to get the spectrum with a well-resolved hyperfine structure. Thus, clear evidence that most of the radicals were not formed by H-addition but formed by OH-addition at the C5 position of the 5, 6 double bond were obtained for pyrimidine bases. For pyrimidine nucleosides, although the effect of H₂O-D₂O exchange was not recognized on resolution improvement of the hyperfine structure of the esr spectra, careful analysis of the hyperfine structure made it possible to identify the radical structures; OH-addition radicals at the C6 of the double bond of the base moiety in addition to the OH-addition radicals at the C5 position for all except for 2-deoxycytidine. Evidence for the formation of free radicals at the sugar moiety was not clear.