Synthesis, crystal structure and studies on properties of trisodium 5,3′,5′-trisulfonate-2,3,4,4′-tetrahydroxy-deoxybenzoin

A new water soluble compound trisodium 5,3′,5′-trisulfonate-2,3,4,4′-tetrahydroxy-deoxybenzoin (TTDB) was synthesized and characterized by IR, UV, ¹H NMR, and elemental analysis. The single crystal of TTDB was determined by X-ray single crystal diffraction. The scavenging effect of compounds on hydroxy radicals was detected by fluorescent spectrophotometry. The electrochemical behavior of compounds in nonaqueous solution DMF was carried out by means of cyclic voltammetry. The experimental result shows that the crystal [C₁₄H₁₇Na₃O₁₈S₃] belongs to monoclinic, space group C2/c with unit cell constants a = 1.4223(4) nm, b = 2.4327(8) nm, c = 1.3596(4) nm, α = 90°, β = 113.044(5)°, γ = 90°, Z = 8, V = 4.329(2) nm³, D _c = 1.925 mg/m³, F(000) = 2568, F _w = 638.43, R ₁ = 0.0950, wR ₂ = 0.2648. The half effective concentration EC₅₀ of scavenging hydroxy radicals of compound THDB is 53.1 μmol/L, while that of scavenging hydroxy radicals of compound TTDB is 47.3μmol/L. The electrochemistry redox processes of THDB and TTDB are different from each other. __________ Translated from Chemical Journal of Chinese Universities, 2005, 26(9) (in Chinese)     

Copper passivity and its breakdown in sodium bicarbonate solutions: A scanning electron microscopy and x-ray photoelectron and auger spectroscopy study

Effect of bicarbonate ions on the copper passivity and its local breakdown is studied by cyclic voltammetry, Auger spectroscopy, x-ray photoelectron spectroscopy, and scanning electron microscopy. Comparing data for solutions with various sodium bicarbonate concentrations shows copper to undergo pitting in 0.02 M NaHCO₃, whereas it remains stably passive in 0.10 M NaHCO₃. Independent studies suggest that carbonates play a protective role in stabilization of the oxide-hydroxide passive film on copper.     

交流示波极谱法中i_f～E曲线的研究 Ⅳ.示波极谱氧化还原滴定法

在i_f～E曲线的测量方法中,由于氧化和还原剂都具有电化学活性,因此,这两种试剂的量就可以通过不同电极电位处的法拉第电流峰敏锐地反映出来。当利用i_f～E曲线指示氧化还原滴定终点时,终点的示波图形,不仅反映氧化和还原剂电流峰的出现和消失,而且反     

On the Criteria of Instability for Electrochemical Systems

Both cyclic-voltammetry-based and impedance-based experimental criteria that have been developed recently for the oscillatory electrochemical systems are critically appraised with two typical categories of oscillators.Consistent conclusions can be drawn by the two criteria for the category of oscillators that involve the coupling of charge transfer mainly with surface steps(e.g.ad-and desorption)such as in the electrooxidation of C1 organic molecules.Whereas,impedance-based criterion is not applicable to the category of oscillators that involve the coupling of charge transfer mainly with mass transfer(e.g.diffusion and convection) such as in the Fe(CN)6^3- reduction accompanying periodic hydrogen evolution.The reason is that the negative impedance cannot include the feedback information of convection mass transfer induced by the hydrogen evolution.However,both positive and negative nonlinear feedbacks,i.e., the diffusion-limited depletion and convection-enhanced replenishment of the Fe(CN)6^3- surface concentration,that coexist between the bistability,i.e.,Fe(CN)6^3- reduction with and without hydrogen evolution at lower and higher potential sides respectively,are all reflected in the crossed cyclic voltammogram(CCV).It can be concluded that the voltammetry-based criterion(in time domain)is more intuitive,less time-consuming and has a wider range of applications than the impedancebased one (in frequency domain).     

层状正极材料LiNi1/6Co1/6Mn2/3O2的制备及电池性能

0引言为解决目前日益严重的汽车尾气排放对城市空气造成污染问题,作为绿色能源的锂离子电池已成为动力电池的首选对象。国际上,高容量、大功率锂离子电池早于1995年已开始研制。1996年,我国天津电源研究所也进行了大容量锂离子蓄电池及电池组的探索[1]。目前,锂离子电池的正极材料是制约其大规模推广应用的关键。现研究的正极材料主要包括具有层状结构的LiCoO2,LiN iO2和LiM nO2及具有尖晶石结构的LiM n2O4等。其中LiC oO2作为目前唯一已经商业化的正极材料具有理论容量高、可循环性能好等优点,但因Co资源的相对缺乏导致其价格高昂。…     

新型含吡啶基的不对称膦酸酯衍生物的合成与生物活性

通过2-氯-5-氯甲基吡啶与亚磷酸酯的Michaelis-Becker反应合成得到10个新型含吡啶基的不对称膦酸酯衍生物, 并对环状亚磷酸酯与2-氯-5-氯甲基吡啶反应的立体化学进行了研究, 结果表明: 不对称环状亚磷酸酯的电子效应和立体效应对反应的立体化学有着重要影响. 初步的生物活性结果表明, 该类化合物不具有杀虫活性, 但显现出较好的杀菌活性.     

Pb2＋在液/液界面迁移的电化学研究及其应用

用循环伏安法研究了双硫腙络合推动Pb^2＋在水/乙酰丙酮界面迁移的伏安过程. 实验证明, 该过程是受扩散控制的不可逆过程, Pb^2＋由水相转移到有机相中, 与双硫腙形成络合物Pb(DzH)₂. Pb^2＋的峰电位在－0.3 V处, 并且在5× 10^－6～0.1 mol•L^－1范围内与峰电流成正比. 这一方法为工业废水中铅的在线、现场测定提供了可靠、灵敏的检测方法.     

负荷度对盾构隧道管片火灾下力学性能影响

针对不同边界条件下的地铁管片建立了热力耦合数值模型,采用顺序耦合热-应力分析方法对不同负荷度下衬砌管片在高温下的变形及内力进行了分析,并基于火灾试验数据进行了验证。研究表明,负荷度是影响管片在火灾高温下变形特性的关键因素。负荷度越大,管片跨中位移在升温阶段发展越充分,下缘混凝土的极限压应力越小。支座边界条件不同时,衬砌管片变形受高温影响的程度也不相同。当衬砌管片两端的水平位移被约束时,由于在升温过程中衬砌管片产生不可忽略的变形,支座反力先增大后减小,最后持续增大直至升温结束。     

不同分级循环加卸载模式下六边形蜂窝能量演化规律

为了阐明循环加卸载路径对六边形蜂窝能量演化的影响规律,设计了3种不同分级循环加卸载试验,揭示了不同分级循环加卸载模式下外界输入总能量、弹性变形能、耗散能、塑性变形能等参数的演化特征及相互关系,研究结果表明：不同分级循环加卸载作用下,蜂窝的初始峰值强度和平台应力与卸载过程蜂窝弹性能的释放程度有关;3种不同分级循环加卸载模式下外界输入总能量、蜂窝的弹性变形能和塑性变形能随着加卸载梯级增大呈现非线性增加的趋势,耗散能在前三级循环作用下随着加载次数增加而减小,在最后一级循环中循环载荷上限较大,扰动效应强于强化效应,耗散能呈现相反趋势;提升循环载荷上限,蜂窝内部损伤增加,且越接近蜂窝初始峰值强度,蜂窝的损伤越严重;同时提升循环载荷下限,蜂窝弹性能释放较少,损伤加剧。     

循环荷载作用下NaCl溶液对黏土动力特性影响及微观机理分析

针对黏土易与水结合,孔隙溶液环境变化对黏土动力特性有较大影响的问题,使用GDS真/动三轴仪对黏土试样进行模拟交通循环荷载下的分级加载试验,研究不同浓度NaCl孔隙溶液、振动频率对土体应力-应变关系和动弹性模量的影响,分析骨干曲线及弹性模量的发展规律,并结合电镜扫描,分析NaCl溶液浓度和振动频率改变前后试样的孔隙分布规律,得到微观孔径与动力特性的关系。结果表明,随着NaCl溶液浓度和振动频率的升高,应力-应变曲线和动弹性模量曲线呈上移趋势;阻尼比-动应变曲线随振动频率的增加而上升,随NaCl溶液浓度的增加而下降;NaCl溶液浓度升高,水化反应产生的胶体增多,微填充作用可有效减少小孔隙,振动频率增加则使得片状颗粒间距被压缩,层状结构减少,土体更加密实,有效减少大孔隙。研究得出的含NaCl溶液黏土受孔隙溶液浓度与振动频率变化的影响规律,可为研究其他环境下黏土的强度变化提供参考。