DTNB电化学行为的探讨

应用电解还原, 紫外和红外光谱及循环伏安等方法, 研究了DTNB在水溶液中和汞电极上的电化学行为。借助于电解还原和ESR技术, 首次检测到在DTNB电解还原中产生的自由基讯号。研究了该自由基的性质和动力学衰变规律。     

藏红T的电化学还原及其电生自由基的ESR跟踪研究

利用电化学方法和ESR(电子自旋共振)-电化学联用技术在无水乙醇体系中研究了藏红T(ST)的电化学还原行为。通过就地跟踪其1-电子还原的中间产物——自由基,推测了该自由基的结构。观察到ST电化学还原过程中存在着后续的、平行的零级和一级衰变反应。这一事实使有的电极反应与酶催化反应相关联的论点进一步得到实验的印证和支持。根据对不同浓度的ST溶液在不同还原电位下生成自由基行为研究结果,提出了ST在该溶液体系中的还原机理,并用曲线拟合法推算了反应历程中有关步骤的动力学参数。     

硝基苯电化学还原过程的ESR研究

本文利用高灵敏度的ESR腔内电解装置,在广泛的pH值范围内“就地”研究了电化学还原中最初产生的硝基苯阴离子基(φ-NO_2~-·)在水-乙醇体系中的动力学行为。观察到了前人尚未观察到的硝基苯电化学还原过程的复杂的动力学行为。通过对不同pH值和不同浓度的硝基苯(φ-NO_2)溶液在不同电位还原下产生的φ-NO_2~-·行为的研究,提出了一个φ-NO_2电极还原过程的反应历程并用曲线拟合法推测了有关步骤的动力学参数。     

5-硝基尿嘧啶电化学还原机理的探讨

本文采用循环伏安法、恒电位电解法结合紫外光谱以及电子自旋共振波谱(ESR)方法对5-硝基尿嘧啶(5NU, 1)在DMSO中Ag-Hg电极上的电化学还原过程进行了研究, 并测定了反应中间物自由基的性质及其动力学规律. 实验结果表明, 1在DMSO中可有二个还原过程. 第一过程为1四电子还原为5-羟胺基尿嘧啶, 反应中所需质子由1提供. 第二个过程为失去质子后形成的阴离子5NU^-(2)在较负的电位下单电子还原为二价阴离子自由基, 后者可用ESR进行现场检测和研究, 其ESR参数分别为: 偶合常数αN=14.6G, αH=5.2G, 自由基g因子, g=2.005. 自由基的衰变反应为夺取1的质子, 反应的速度常数k1=52mol^-^1.dm^3.s^-^1.     

3′-大豆甙元磺酸钠的电化学行为及应用研究

采用线性扫描伏安法、循环伏安法和常规脉冲伏安法电化学手段详细研究了改性药物 3′ 大豆甙元磺酸钠 ( 3′ daidzeinsulfonicsodium ,Dss)在pH 1 0～ 6 2的水溶液中的电化学行为 .在不同pH范围内得到了Dss的三个还原波 .研究证实 ,在pH <3 2条件下所获得的Pc1,Pc2 波分别为质子化的Dss的单电子不可逆吸附还原波及还原中间体自由基的单电子单质子不可逆吸附还原波 ;在 3 2 相似文献   

Vitamin K脉冲辐解与激光光解的研究(Ⅱ)——VK3水溶液氧化反应时间分辨的研究

Vitamin K3(VK3)是很好的电子载体,文献[1,2]利用微秒级脉冲辐解研究了VK3水溶液体系,测定了一些自由基与VK3进行的单电子氧化还原反应及相关动力学参数.     

有机电极材料过渡态的研究进展

有机电极材料具有理论比容量大、结构可设计性强、加工使用过程环境友好等优点被广泛应用于二次电池的研究中。有机电极材料在氧化还原过程会产生具有不成对电子的自由基中间体,自由基中间体的稳定程度影响电极材料的电化学性能。通过改变材料的结构可以调控自由基中间体的稳定性,从而优化有机电极材料的电化学性能。本文对有机电极材料在电化学过程中产生的自由基中间体进行了分类介绍,阐明了材料结构、自由基中间体稳定性和电化学性能之间的关系。     

电催化动力学简介（英文）

电催化过程是实现社会向可再生能源与化学品转型的主要驱动力之一。电催化动力学分析是探索反应机理和建立电催化剂构效关系行之有效的方法。本文将通过三个广泛研究的电催化反应：电化学CO₂、CO还原反应和氧还原反应,探讨Tafel分析的普遍过程、隐含假设以及需要注意的问题。此外,本文将介绍电化学反应活化参数的基本概念和关键热力学、动力学变量之间的关系。     

次亚磷酸根在镍电极上的电氧化机理与动力学

用电化学质谱(EMS)和动力学模型分析等方法研究了次亚磷酸根在镍电极上的电化学氧化机理和动力学.研究表明，次亚磷酸根的电化学氧化是通过从P－H键脱离一个原子H，形成磷中心自由基(PHO2－•)，而磷中心自由基(PHO2－•)进一步进行电化学反应形成最终产物亚磷酸。利用该模型，推导出相关动力学方程并通过与实验数据拟合获得动力学参数.结果表明，该模型能很好地模拟次亚磷酸根在镍电极上的电化学氧化过程.     

Cr_2O_3粉末在CaCl_2熔盐中直接电化学还原的金属通腔电极研究

应用金属通腔电极研究Cr2O3粉末于熔盐中的电化学行为,验证了900℃下Cr2O3粉末在含镁量<0.005%氯化钙熔盐中的分步还原机理,估算其电化学还原动力学参数;并由扫描电镜观察产物形貌,分析电解电位和时间对金属颗粒尺寸的影响.     

The reactions of cytidine and 2'-deoxycytidine with SO4.- revisited. Pulse radiolysis and product studies

The reactions of SO4.- with 2'-deoxycytidine 1a and cytidine 1b lead to very different intermediates (base radicals with 1a, sugar radicals with 1b). The present study provides spectral and kinetic data for the various intermediates by pulse radiolysis as well as information on final product yields (free cytosine). Taking these and literature data into account allows us to substantiate but also modify in essential aspects the current mechanistic concept (H. Catterall, M. J. Davies and B. C. Gilbert, J. Chem. Soc., Perkin Trans. 2, 1992, 1379). SO4.- radicals have been generated radiolytically in the reaction of peroxodisulfate with the hydrated electron (and the H. atom). In the reaction of SO4.- with 1a (k = 1.6 x 10(9) dm3 mol-1 s-1), a transient (lambda max = 400 nm, shifted to 450 nm at pH 3) is observed. This absorption is due to two intermediates. The major component (lambda max approximately 385 nm) does not react with O2 and has been attributed to an N-centered radical 4a formed upon sulfate release and deprotonation at nitrogen. The minor component, rapidly wiped out by O2, must be due to C-centered OH-adduct radical(s) 6a and/or 7a suggested to be formed by a water-induced nucleophilic replacement. These radicals decay by second-order kinetics. Free cytosine is only formed in low yields (G = 0.14 x 10(-7) mol J-1 upon electron-beam irradiation). In contrast, 1b gives rise to an intermediate absorbing at lambda max = 530 nm (shifted to 600 nm in acid solution) which rapidly decays (k = 6 x 10(4) s-1). In the presence of O2, the decay is much faster (k approximately 1.3 x 10(9) dm3 mol-1 s-1) indicating that this species must be a C-centered radical. This has been attributed to the C(5)-yl radical 8 formed upon the reaction of the C(2')-OH group with the cytidine SO4(.-)-adduct radical 2b. This reaction competes very effectively with the corresponding reaction of water and the release of sulfate and a proton generating the N-centered radical. Upon the decay of 8, sugar radical 11 is formed with the release of cytosine. The latter is formed with a G value of 2.8 x 10(-7) mol J-1 (85% of primary SO4.-) at high dose rates (electron beam irradiation). At low dose rates (gamma-radiolysis) its yield is increased to 7 x 10(-7) mol J-1 due to a chain reaction involving peroxodisulfate and reducing free radicals. Phosphate buffer prevents the formation of the sugar radical at the SO4(.-)-adduct stage by enhancing the rate of sulfate release by deprotonation of 2b and also by speeding up the decay of the C(5)-yl radical into another (base) radical. Cytosine release in cytidine is mechanistically related to strand breakage in poly(C). Literature data on the effect of dioxygen on strand breakage yields in poly(C) induced by SO4.- (suppressed) and upon photoionisation (unaltered) lead us to conclude that in poly(C) and also in the present system free radical cations are not involved to a major extent. This conclusion modifies an essential aspect of the current mechanistic concept.     

电荷转移盐(C3H5N2)3[PMo12O40]的合成与热分解及光致变色动力学

用磷钼酸与咪唑合成一种新的杂多酸-有机电荷转移盐(C3H5N2)3[PMo12O40]。通过元素分析、红外光谱、固体漫反射光谱、电子自旋共振及热分析等测试技术对其进行了表征,用单扫描法(Achar法和Coats-Redfern法)对合成化合物的TG分析结果进行了非等温热分解动力学研究。推断结果表明,合成化合物的第1步热分解为球对称的三维扩散机理(n=2),其动力学方程为dα/dt=1.58×108[1-(1-α)1/3]-1(1-α)2/3exp(-40 931.0/T),求得分解反应的表观活化能E=340.30 kJ/mol,指前因子A=1.05×108 s-1。 标题化合物对紫外光具有光致变色性质,用固体漫反射光谱研究了其光致变色反应动力学。 结果显示,其光致变色反应表现为一级或准一级动力学,速率常数k=9.80×10-5 s-1。     

Repair reactions of pyrimidine-derived radicals by aliphatic thiols

Pyrimidinyl radicals of various structures (Pyr*) were generated in aqueous and alcohol-containing solutions by means of pulse radiolysis to determine the rate constants of their repair reactions by different thiols (RSH = cysteamine, 2-mercaptoethanol, cysteine, and penicillamine): Pyr* + RSH --> PyrH + RS*. C5-OH and C6-OH adduct radicals of the pyrimidines react with thiols with k9 = (1.2-10.0) x 10(6) dm3 mol(-1) s(-1). Similar repair rate constants were found for uracil- and thymine-derived N1-centered radicals, k31 = (1.5-6.1) x 10(6) dm3 mol(-1) s(-1). However, pyrimidine radical anions protonated at their C6 position and C6-uracilyl radicals, with carbonyl groups at their C5 position, react with thiols faster, with k24 = (0.5-7.6) x 10(7) dm3 mol(-1) s(-1) and k14 = (1.4-4.8) x 10(7) dm3 mol(-1) s(-1), respectively. Quantum chemical calculations, at the B3LYP/6-31G(d,p) and self-consistent reaction field polarizable continuum model level point to the combined effects of the energy gap between interacting molecular orbitals, charge distribution within different pyrimidine-derived radicals, and the coefficients of the atomic orbitals as the possible reasons for the differences in the rate constants of repair.     

3-硝基苯甲酸在DMSO介质中的电化学还原

本文用循环伏安法、控制电位电解和ESR方法结合, 研究了3-硝基苯甲酸(3-NBA)在DMSO介质中, Pt电极上的电化学还原过程。结果表明, 3-硝基苯甲酸通过三电子还原生成一种亚硝基自由基。观测到了自由基ESR谱的超精细结构。确定了ESR模拟谱的参数: a_1~N=10.91G, a_2~H=1.12G, a_4~H=a_6~H=3.38G, a_5~H=3.96G. 估算了自由基衰变速度常数k=4.814×10~(-2)s~(-1).     

A mechanistic approach to the kinetics of oxidation of uranium(IV) by hexachloroplatinate(IV) in aqueous perchlorate solutions. Evidence of the formation of a binuclear intermediate complex

The kinetics of hexachloroplatinate(IV) oxidation of uranium(IV) ion in aqueous perchloric acid solutions at a constant ionic strength of 1.0 mol dm(-3) has been investigated using the stopped-flow and conventional spectrophotometric techniques. The oxidation reaction was found to proceed through two distinct stages. The initial stage was found to be relatively fast corresponding to the formation of [(H(2)O)(n)U(IV)·Cl(6)Pt(IV)](2+) binuclear intermediate complex (with the rate constant k(1) = 1.75 × 10(4) dm(3) mol(-1)s(-1), k(-1) = 6.8 s(-1), and the formation constant K = 2.6 × 10(3) dm(3) mol(-1) at [H(+)] = 1.0 mol dm(-3) and 25 °C for binuclear formation). This stage was followed by a much slower stage corresponding to the transfer of two electrons from U(IV) to Pt(IV) in the rate-determining step (with the rate constant k = 5.32 × 10(-5) s(-1) at [H(+)] = 1.0 mol dm(-3) and 25 °C). The reaction stoichiometry was found to depend on the molar ratio of the reactants concentration. The experimental results indicated the decrease of the observed first-order rate constants with increasing the [H(+)] for the decomposition of the binuclear intermediate complex through the slow-second stage, whereas no change was observed with respect to the rate of formation of the binuclear complex at the initial rapid part. A tentative reaction mechanism consistent with the kinetic results is discussed.     

Separation and identification of DMPO adducts of oxygen-centered radicals formed from organic hydroperoxides by HPLC-ESR,ESI-MS and MS/MS

Many electron spin resonance (ESR) spectra of 5,5-dimethyl-1-pyrroline N-oxide (DMPO) radical adducts from the reaction of organic hydroperoxides with heme proteins or Fe(2+) were assigned to the adducts of DMPO with peroxyl, alkoxyl, and alkyl radicals. In particular, the controversial assignment of DMPO/peroxyl radical adducts was based on the close similarity of their ESR spectra to that of the DMPO/superoxide radical adduct in conjunction with their insensitivity to superoxide dismutase, which distinguishes the peroxyl adducts from the DMPO/superoxide adduct. Although recent reports assigned the spectra suggested to be DMPO/peroxyl radical adducts to the DMPO/methoxyl adduct based on independent synthesis of the adduct and/or (17)O-labeling, (17)O-labeling is extremely expensive, and both of these assignments were still based on hyperfine coupling constants, which have not been confirmed by independent techniques. In this study, we have used online high performance liquid chromatography (HPLC or LC)/ESR, electrospray ionization-mass spectrometry (ESI-MS) and tandem mass spectrometry (MS/MS) to separate and directly characterize DMPO oxygen-centered radical adducts formed from the reaction of Fe(2+) with t-butyl or cumene hydroperoxide. In each reaction system, two DMPO oxygen-centered radical adducts were separated and detected by online LC/ESR. The first DMPO radical adduct from both systems showed identical chromatographic retention times (t(R) = 9.6 min) and hyperfine coupling constants (a(N) = 14.51 G, a(H)(beta) = 10.71 G, and a(H)(gamma) = 1.32 G). The ESI-MS and MS/MS spectra demonstrated that this radical was the DMPO/methoxyl radical adduct, not the peroxyl radical adduct as was thought at one time, although its ESR spectrum is nearly identical to that of the DMPO/superoxide radical adduct. Similarly, based on their MS/MS spectra, we verified that the second adducts (a(N) = 14.86 G and a(H)(beta) = 16.06 G in the reaction system containing t-butyl hydroperoxide and a(N) = 14.60 G and a(H)(beta) = 15.61 G in the reaction mixture containing cumene hydroperoxide), previously assigned as DMPO adducts of t-butyloxyl and cumyloxyl radical, were indeed from trapping t-butyloxyl and cumyloxyl radicals, respectively.     

超氧负离基研究: 无水乙腈中超氧负离子基的稳定性及其捕获

考察了影响无水乙腈中超氧负离子基(O2^-)稳定性的因素,发现氧促使乙腈中O2^-浓度迅速减小,通过产物鉴定和UV动力学分析提出氧促O2^-与乙腈反应的可能机理。研究了O2^-与2,2,6,6-四甲基-4-羟基-N-溴哌啶(NB)的反应,表明NB可望成为非水溶剂中O2^-的专一捕获剂。     

线性变位极谱法研究XX. 卷积和去卷积配位吸附不可逆波理论

本文提出线性变位极谱卷积和去卷积配位吸附不可逆波理论, 并进行了验证,实验结果与理论相符。