铜电极阳极溶解过程恒电位电流振荡的动力学模型

研究了铜电极在酸性氯化钠溶液中的恒电位电流振荡行为,分析了电极过程中的非线性步骤及电化学耦合因素,提出了一个可能的电极过程动力学模型,并借助线性稳定性分析及分支分析得到了参数坐标空间中的动力学行为区域图。在此基础上,将极化曲线视为稳定非平衡定态区态函（电流）与外控参数（电位）的关系,同时将恒电位电流振荡模拟为稳定极限环振荡,分别计算出了极化曲线与时间－电流振荡曲线,其结果与实验数据相符,表明该类电     

EQCM技术对电化学振荡中阴离子的影响

采用控制电位下的线形扫描方法,在H2O2与高氯酸、盐酸或硫酸及其相应阴离子的盐组成的体系中、考察了不同浓度配比时的电化学振荡行为。结果表明,H2O2和H^ 浓度是产生电化学振荡的主要因素。EQCM的测量结果证明了阴离子在铂电极表面发生吸附,在较负的电位范围发生脱附。据此,讨论了不同阴离子的吸附对电化学振荡行为的影响。     

纳米铂微粒修饰电极上甲醛电催化氧化的电位振荡和电流振荡

通过阴极还原-阳极氧化法制备了钛基纳米铂微粒修饰电极, 扫描电镜观察发现, 分布于钛基体表面的氧化钛膜三维网状孔道中的纳米铂微粒具有高度分散状态. 采用多种电化学手段在该电极上不仅观察到甲醛在恒电流条件下产生的电位振荡, 而且在循环伏安和恒电位两种条件下均观察到强烈的电流振荡, 这进一步证明高度分散的纳米铂微粒使电极的催化活性大大提高, 促进了甲醛及其毒化中间产物的电催化氧化过程, 从而有利于电极上电化学振荡的产生. 研究结果还表明, 甲醛底物浓度、硫酸介质浓度、恒电位或恒电流大小等多种因素对振荡强度、范围或类型会产生规律性的影响.     

含钼碱性电解液中乙醇在铂黑电极上氧化循环伏安曲线的2,3,5周期及非周期振荡

中图分类号Ｏ６５７·１４文献标识码Ａ通常乙醇在铂黑电极上氧化的循环伏安曲线在经过开始的一段过渡期后会变得稳定，但在特定的条件下也会出现不稳定的振荡现象〔１～５〕．由于钼的存在可以促进有机小分子氧化过程中强吸附物种的氧化，降低过电位〔６〕，因此我们设想...     

乙醇在碳载Pt纳米薄膜电极上吸附和氧化过程研究——II.酸性介质中EQCM和原位FTIR反射光谱

运用电化学循环伏安 ,石英晶体微天平 (EQCM )和原位FTIR反射光谱等方法研究了酸性介质中乙醇在碳载纳米Pt膜电极上吸附和氧化行为 .结果表明 ,乙醇的电氧化与溶液酸碱性及电极表面氧物种有密切的关系 ,并指出乙醇电催化氧化是通过解离吸附产物和反应中间体双途径机理进行的 .在实验条件下 ,经原位FTIR反射光谱检测 ,解离吸附产物为CO ,反应中间体主要有CH3COOH和CH3CHO等物种 .     

酸性和碱性介质中甘氨解离吸附和氧化的EQCM研究

用电化学石英晶体微天平（EQCM）研究酸性和碱性介质中甘氨酸在Pt电极上的吸附和氧化过程，结果表明，甘氨酸的解离吸附和氧化行为与溶液的酸碱性密切相关，酸性溶液中甘氨酸吸附软弱，碱性溶液中则产生强吸附物，且当电位低于0V（vs.SCE)时可吸附于Pt电极表面，此外，碱性溶液中甘氨酸还表现出较高的电氧化活性，通过EQCM定量检测上述过程中Pt电极电极表面的质量变化，测定了不同电位区间（氢区、双电层区和氧区）每传递一个电子所对应的电极表面吸附物的平均摩尔质量。     

酸性和碱性介质中甘氨酸解离吸附和氧化的EQCM研究

用电化学石英晶体微天平(EQCM)研究酸性和碱性介质中甘氨酸在Pt电极上的吸附和氧化过程.结果表明,甘氨酸的解离吸附和氧化行为与溶液的酸碱性密切相关.酸性溶液中甘氨酸吸附较弱,碱性溶液中则产生强吸附物,且当电位低于0V(vs.SCE)时可吸附于Pt电极表面.此外,碱性溶液中甘氨酸还表现出较高的电氧化活性.通过EQCM定量检测上述过程中Pt电极表面的质量变化,测定了不同电位区间(氢区、双电层区和氧区)每传递一个电子所对应的电极表面吸附物种的平均摩尔质量.     

在含钼碱性电解液中乙醇在铂黑电极上氧化时循环伏安曲线的振荡

有机小分子电极氧化过程中的振荡现象已作为非线性电极过程复杂体系动力学的一个典型实验进行了研究［１,２］．Ｓｈｅｌ等报道了有机小分子电极氧化循环伏安曲线的振荡［３～５］,表面上吸附物质或膜的生成与消耗是导致振荡乃至混沌行为发生的原因．在低ＮａＯＨ浓度时...     

恒电位下铜电极电流振荡的延时控制

采用铜电极的阳极溶解作为研究对象,开展电流振荡的延迟控制方法的研究.调节控制信号中延迟时间及控制系数的大小,延迟时间对电流影响作用明显,观察到周期变长和变短的结果,小延时下振荡周期变大,大延时下周期变小.延时控制也使振荡的波形产生明显的变化,并使原有的周期振荡呈现出混沌振荡.控制系数对振荡产生不同的影响,呈现出波形分裂、混合振荡等现象.控制系数加大时,这种峰的分裂变得更加强烈,阳极溶解电流产生了混沌振荡.控制后的振荡频率与原有频率有简单的比例关系.文中对延迟控制产生特定波形的机制进行了分析和讨论.     

甲醇在Pt表面电化学氧化过程中的化学振荡

基于甲醇电化学氧化的双途径机理,建立了能够表征甲醇电化学氧化过程电位振荡的非线性动力学模型.所建甲醇氧化系统动力学演化模型涉及三个主要的变量:电极电位(e),毒性中间体CO的表面覆盖度(x),含氧物种H2Oa的表面覆盖度(y).通过反应速率常数ki=exp(ai(e-ei))实现了化学反应与电极电位的耦合.研究发现,在不同的电流密度范围内甲醇电化学氧化呈现不同的动力学特征.甲醇电化学氧化时出现的电位振荡现象可以归因为:一是氧化过程中生成了毒性中间体CO,这是产生电化学振荡的诱因;二是强烈依赖于电极电位的非电化学反应,即,含氧物种H2Oa在Pt表面的生成与消失,则是维系振荡的直接原因.而甲醇电化学氧化体系复杂的动力学行为根源在于电极电位e对CO和含氧物种H2Oa所参与反应的耦合反馈作用.对所建模型的数值分析成功地解释了为什么甲醇电化学氧化时出现的电位振荡现象只发生在一定的电流密度范围.     

硫酸溶液中Pt电极表面过程的EQCM研究

应用电化学循环伏安和石英晶体微天平(EQCM)方法研究了0.1mol·L-1硫酸溶液中Pt电极表面的吸附和氧化过程.从电极表面质量变化的结果分析,可认为正向电位扫描时氢区表面质量的增加是由于水分子取代Had引起的,而双电层区的质量增加则是由于水的吸附模式逐渐由氢端吸附转向氧端吸附所致.根据频率变化和电量数据,进一步推算出水在双电层区是以低放电吸附形式出现的,1molPt原子和水分子只发生0.054mol的电荷转移.本文结果可为认识Pt电极表面过程提供定量的新数据.     

Pt和Sb、S吸附原子修饰的Pt电极上正丙醇氧化的CV和EQCM研究

运用电化学循环伏安法和石英晶体微天平研究了正丙醇在Pt电极和以Sb、S吸附原子修饰的Pt（Pt/Sbad和Pt/Sad）电极上的吸附和氧化过程.从电极表面质量变化角度指出正丙醇的氧化与电极表面氧物种有着极其密切的关系.Pt电极表面Sb吸附原子能在较低的电位下吸附氧，可显著提高正丙醇电催化氧化活性，与在Pt电极上相比较,正丙醇氧化的峰电位负移了0.29 V,峰电流增加了近2倍.相反,Pt电极表面S吸附原子的氧化会消耗表面氧物种，饱和吸附S原子的Pt电极上正丙醇的电氧化受到抑制.本文从表面质量变化提供了吸附原子电催化作用的新数据.     

Solvent‐Modulated Influence of Intramolecular Hydrogen‐Bonding on the Conformational Properties of the Hydroxymethyl Group in Glucose and Galactose: A Molecular Dynamics Simulation Study

Intramolecular hydrogen‐bonding (H‐bonding) is commonly regarded as a major determinant of the conformation of (bio)molecules. However, in an aqueous environment, solvent‐exposed H‐bonds are likely to represent only a marginal (possibly adverse) conformational driving as well as steering force. For example, the hydroxymethyl rotamers of glucose and galactose permitting the formation of an intramolecular H‐bond with the adjacent hydroxyl group are not favored in water but, in the opposite, least populated. This is because the solvent‐exposed H‐bond is dielectrically screened as well as subject to intense H‐bonding competition by the water molecules. In the present study, the effect of a decrease in the solvent polarity on this rotameric equilibrium is probed using molecular dynamics simulation. This is done by considering six physical solvents (H₂O, DMSO , MeOH , CHC l₃, CC l₄, and vacuum), along with 19 artificial water‐like solvent models for which the dielectric permittivity and H‐bonding capacity can be modulated independently via a scaling of the O–H distance and of the atomic partial charges. In the high polarity solvents, the intramolecular H‐bond is observed, but arises as an opportunistic consequence of the proximity of the H‐bonding partners in a given rotameric state. Only when the polarity of the solvent is decreased does the intramolecular H‐bond start to induce a conformational pressure on the rotameric equilibrium. The artificial solvent series also reveals that the effects of the solvent permittivity and of its H‐bonding capacity mutually enhance each other, with a slightly larger influence of the permittivity. The hydroxymethyl conformation in hexopyranoses appears to be particularly sensitive to solvent‐polarity effects because the H‐bond involving the hydroxymethyl group is only one out of up to five H‐bonds capable of forming a network around the ring.     

EQCM and Fluoroelectrochemical Studies on the Catalytic Oxidation of NADH at a Pencil 8B‐Scrawled Gold Electrode with High Detection Sensitivity

We report for the first time the effective catalytic electrooxidation of nicotinamide adenine dinucleotide (NADH) on the pencil 8B‐scrawled gold electrode of an electrochemical quartz crystal microbalance (EQCM). The EQCM allowed us to quantitatively evaluate the catalytic activity of the pencil‐scrawled Au electrode. With increasing the mass of modified pencil powders, the peak potential for NADH oxidation shifted negatively, with maximum shift of ?0.35 V at saturated pencil modification; the NADH‐oxidation peak current density (j_p) was also notably increased, and the j_p at saturated pencil modification was found to be larger than those at conventional pencil 8B and bare Au electrodes. Sensitive amperometric detection of NADH was achieved at the gold electrode with saturated pencil modification, with low detection potential (0.4 V versus SCE), low detection limit (0.08 μmol L^?1) and wide linear range (0.2–710 μmol L^?1). The fluoroelectrochemical measurements of NADH at bare and pencil‐modified gold electrodes were also conducted with satisfactory results. The convenient and low‐cost modification of pencil powders on the Au electrode may have presented a new functional surface of the EQCM, which is recommended for wider applications to bioelectrochemical studies, especially in view of the EQCM's capability of providing abundant in situ information in relevant processes.     

Pt及其修饰电极上甲醇吸附和氧化的CV和EQCM研究

运用电化学循环伏安和石英晶体微天平 (EQCM )研究了 0 .1mol·L- 1H2 SO4 溶液中甲醇在Pt电极和以Sb ,S不可逆吸附原子修饰的Pt(Pt/Sbad和Pt/Sad)电极上的吸附和氧化过程 .结果表明甲醇的氧化与电极表面氧物种有着极其密切的关系 .Pt电极表面Sb吸附原子能在较低的电位下吸附氧 ,可显著提高甲醇电催化氧化活性 .与Pt电极相比较 ,Sb吸附原子修饰的Pt电极使甲醇氧化的峰电位负移了 0 .13V .相反 ,Pt电极表面S吸附原子的氧化会消耗表面氧物种 ,抑制了甲醇的电氧化 .本文从表面质量变化提供了吸附原子电催化作用的新数据     

EQCM Study of Iridium Anodic Oxidation in H2SO4 and KOH Solutions

In the present study anodic oxidation of iridium layer formed thermally on a gold‐sputtered quartz crystal electrode has been investigated by electrochemical quartz crystal microgravimetry (EQCM) in the solutions of 0.5 M H₂SO₄ and 0.1 M KOH. The emphasis here has been put on the microgravimetric behavior of iridium as a metal, because a few previous EQCM studies reported in literature have been devoted to iridium oxide films (IROFs). The objective pursued here has been to elucidate the nature of the main voltammetric peaks, which occur at different ranges of potential in the solutions investigated. It has been found that anodic oxidation of iridium electrode in 0.5 M H₂SO₄ and 0.1 M KOH solutions is accompanied by irregular fluctuations of the electrode mass at 0.4 V<E<0.8 V followed by regular increase in mass at 0.8 V<E<1.2 V. The cathodic process initially, at 1.2 V>E>0.9 V, proceeds without any or with slight increase in electrode mass, whereas at E<0.8 V a regular decrease in mass is observed. It has been found that mass to charge ratio characterizing the processes of interest is 2 to 3 g F^?1in acidic medium, whereas in the case of alkaline one it is 4 to 6 g F^?1. The main pair of peaks seen in the voltammograms of Ir electrode in alkaline medium at E<0.8 V is attributable to redox transition Ir(0)→Ir(III), whereas those observed in the case of acidic medium at E>0.8 V should be related to the redox process Ir(0)→Ir(IV) going via intermediate stage of Ir(III) formation. As a consequence of these redox transitions, the gel‐like surface layer consisting of Ir(III) or Ir(IV) hydrous oxides forms on the electrode surface.     

PANI膜电聚合过程及电控分离苯酚的EQCM研究

通过电沉积方法在镀铂石英晶片上制备了导电聚苯胺(PANI)膜,采用电化学石英晶体微天平(EQCM)技术探讨了苯胺聚合机制及在苯酚溶液中的氧化还原特性.在0.5 mol/L硫酸溶液中结合循环伏安法考察了PANI膜在完全还原态(L)-半氧化态(E)-完全氧化态(P)之间的电活性和稳定性;在不同浓度的苯酚溶液中结合恒电压阶跃...     

过氧化氢氧化硫化钠反应体系的复杂振荡

研究了过氧化氢和硫化钠反应体系在连续流动搅拌反应器中的复杂振荡行为. 观察到11型振荡、12型振荡、非周期振荡以及衰减振荡; 在振荡周期内, 拐点附近区域H+扰动产生的延迟与振荡相位pH有关. 在完全基于硫价态变化的经验速率方程模型的基础上进行数值模拟, 得到的各种复杂振荡行为与实验现象基本一致, 证明了硫价态变化可驱动复杂非线性动力学行为.