表面活性剂对硫醇单层膜修饰金电极电化学行为的影响

利用自组装方法在金电极表面制备成硫醇单层膜, 循环伏安和交流阻抗实验表明硫醇单层膜与表面活性剂十六烷基三甲基溴化胺作用后, 其电化学行为发生变化, 对于带有不同电荷的探针分子, 表现出一定的选择性响应. 即使是带有相同电荷的探针分子, 由于与表面活性剂的作用方式不同, 也使它们通过硫醇单层膜在电极表面产生电化学响应的程度完全不同.     

锆离子改善十烷基磷酸组装膜结构及性能研究

利用烷基磷酸、金属锆离子和不锈钢电极表面的相互作用,通过表面自组装,在304不锈钢电极表面分别修饰了单层和双层烷基磷酸自组装膜,采用接触角和极化曲线对修饰电极进行测量.实验表明,双层烷基磷酸修饰膜具有更佳的耐腐蚀性能.     

基于微机电系统技术和纳米金自组装膜的安培型免疫传感器研究

基于微机电系统(MEMS)技术制备安培型免疫传感器,并利用基于硫醇单层膜的纳米金单层膜自组装技术设计传感器界面,用于固定人免疫球蛋白(IgG)抗体,研制了一种新型的安培型免疫传感器。采用MEMS技术,在硅片上制备微型的三电极系统以及SU-8反应池。基于自组装技术,先在金电极上自组装巯基乙胺单层膜,利用膜上氨基与纳米金共价结合组装纳米金单层膜,得到可用于固定抗体的界面。实验探讨了影响抗体固定的主要实验参数和条件;考察了采用此固定化方法传感器的响应性能,与金电极直接吸附固定法和戊二醛共价交联固定法进行了比较。对IgG检测的实验结果表明,采用纳米金自组装膜固定抗体,具有活性高、非特异性吸附小、检测线性范围宽等优点。并且,基于MEMS技术的安培型免疫传感器具有微型化、与集成电路工艺相兼容、易于实现传感器的阵列化和实时多参数检测等优点。     

金电极上L-半胱氨酸短链分子自组装单层的电化学性能和拉曼光谱研究

用循环伏安法分别测定了金电极表面L-半胱氨酸(L-Cys)和十二硫醇自组装单分子层的电化学行为, 实验发现虽然单层结构排列致密, 但并不能有效地阻碍铁氰化钾与电极间异相电子转移过程, 同时观察到十二烷基硫醇自组装层能较好地阻碍电子转移作用. 运用表面增强拉曼散射光谱技术, 以十二烷基硫醇作为缺陷探针, 从分子水平上证实了L-半胱氨酸自组装单层的稳定性和致密性.     

水溶性聚合物和两亲聚合物——10.两亲聚合物PAMC_(16)S的自组装有序膜

用自组装技术在金(纯金和经阳极氧化的金)表面上获得了新型两亲聚合物PAMC_(16)S的有序膜。用接触角测试,XPS谱和电化学分析等方法对自组装膜进行了表征。根据膜表面的润湿性,金表面的自组装膜是疏水的,亲水的磺酸基团连于金表面,而疏水的碳氢链从表面伸展出。XPS实验结果支持金表面上单层膜的疏水结构。聚合物单层膜复盖的金电极起到含有针孔缺陷的阻膈型电极的作用。单层膜在法拉第反应中显示很强的吸附稳定性,说明聚合物LB膜在潜在应用中有其特有的特点。     

银电极上植酸钠/2-氨基-5-巯基-1,3,4-噻二唑混合自组装层的表面增强拉曼光谱和电化学研究

应用表面增强拉曼散射光谱(SERS)和电化学方法, 对银电极上2-氨基-5-巯基-1,3,4-噻二唑(AMT)和植酸钠混合自组装单层结构和缓蚀性能关系进行了研究. SERS光谱表明, 银电极表面形成AMT膜后, 再组装植酸钠分子能够弥合AMT膜的缺陷. 交流阻抗和极化曲线实验表明, 形成的混合自组装层比单一AMT自组装层表现出更好的缓蚀性能. AMT膜层的等效电路为R(Q(R(Q(RW)))); 混合膜层电路图为LR(Q(R(Q(R)))).     

正十二硫醇自组装单层膜改善环氧涂层腐蚀防护性能的研究

通过在正十二硫醇自组装单层膜表面制备环氧树脂涂层的方法,在涂层/铜基体界面引入自组装界面层.采用X射线光电子能谱、电化学阻抗谱、阻抗-时间谱和相位角-时间谱等方法对硫醇自组装界面层及其对涂层腐蚀防护性能的影响进行了研究.结果表明,引入的自组装单层可极大地改善涂层的腐蚀防护性能.论文还对自组装单层改善涂层腐蚀防护性能的机理进行了探讨.     

基于多壁碳纳米管/二茂铁接枝壳聚糖的核/壳结构组合物多层膜电极的组装及其电催化

以聚二烯丙基二甲基氯化铵(PDDA)修饰的玻碳电极(GCE)为基础电极, 利用静电层-层自组装的方法将多壁碳纳米管/二茂铁接枝壳聚糖的核/壳结构组合物(MWCNTs@CHIT-Fc)和聚苯乙烯磺酸钠(PSS)在该电极表面进行交替多层组装. 用循环伏安(CV)、紫外-可见光谱(UV-Vis)和扫描电子显微镜(SEM)等方法对组装过程进行了跟踪表征. 用CV方法研究了抗坏血酸(AA)在该多层膜电极上的电催化氧化. 研究结果表明, 当MWCNTs@CHIT-Fc为6个双层时, AA在该修饰电极上的氧化峰电位与裸GCE相比降低了约0.4 V. 用控制电位电流法研究了不同MWCNTs@CHIT-Fc双层时AA的电流响应. 用该电极测定了AA的灵敏度, 检测限及线性范围等性能参数可通过控制组装的MWCNTs@CHIT-Fc双层数进行调节.     

共价键合铁卟啉有序多层膜电极的组装及其对H2O2的电催化还原

以玻碳电极为基础电极,先用静电自组装方法将带负电荷的四磺酸基苯基铁卟啉和带正电荷的含重氮盐基团的重氮树脂在电极表面进行层-层组装,然后在紫外光的照射下,使铁卟啉的磺酸基与重氮树脂的重氮基引发交联反应,使层与层之间的离子键变成共价键,从而使铁卟啉在电极表面形成稳定、有序、分子水平的层-层构筑.用UV-Vis和IR光谱表征了组装过程,用CV方法研究了该电极的电化学性能.结果表明,该电极不但具有非常优异的稳定性,而且对H₂O₂的电还原反应也表现出很好的催化活性.     

3-巯基丙酸自组装单分子膜的研究进展

自组装单层或单分子膜(Self-assembled monolayers)的研究十分活跃,尤其是硫-金体系的单层研究更是得到科学家们的青睐。3-巯基丙酸由于可以在金基底形成稳定有序的二维自组装单分子膜,从而显示出独特的结构和表面性质。该文着重从膜的制备、膜内分子的结构、单层膜的性质以及应用等方面综述金基底上3-巯基丙酸自组装单分子膜的研究进展,并对其前景进行了展望。     

双盘工作电极参比电位采样快扫伏安方法

报道一种双铂盘工作电极、相应的毛细管参比电极和竖直式电化学池设计并用于快速循环伏安测量.双工作电极包括一个常规工作电极,一个辅助工作电极.后者在使用中接地,仅提供参比电位来控制工作电极的电位.参比毛细管尖端安设在接近辅助工作电极的位置上;用0.3mm直径Pt盘工作电极,在电位扫描速度高达10kV/s都可以得到类似于100%iR补偿的伏安曲线,而不必使用iR补偿电路.本文围绕高扫速伏安法中工作电极电位的准确控制问题做了一些初步的探讨.     

聚乙烯醇修饰电极的研制及应用

本文提出用玻碳电极为基体制作聚乙烯醇(PVA)修饰电极。研究了铜在该电极上的阳极溶出伏安特性。探讨了电极修饰及其作用机理。电极可用于水中痕量铜的测定,灵敏度比未修饰玻碳电极提高一个数量级以上。     

Rotating Ring (Pt)–Disc (FeS2) Electrode Behavior in Hydrochloric Solutions

A rotating ring (Pt)–disc (FeS₂) electrode was used to investigate the surface oxidation process of pyrite in the hydrochloric solutions. It is reported for the first time that the oxidation intermediates of pyrite were formed on the disc electrode and then oxidized on the ring electrode. The results indicate that at a rotation rate of 20 Hz, when the disc electrode potential was in the region of 0.43 to 0.62 V and the ring electrode potential was at 1 V vs a standard calomel electrode (SCE), approximately 50% of the reacted pyrite was oxidized to ferric and sulfate ions and the other 50% was oxidized to sulfur and ferrous ions on the disc electrode. The latter was further oxidized to ferric ions on the ring electrode. As the disc electrode potential increased to 1.22 V vs SCE, more than 90% of the reacted pyrite was oxidized to ferric and sulfate ions on the disc electrode and less than 10% formed ferrous ions, which were further oxidized to ferric ions on the ring electrode.     

纳米碳管电极上氧的电催化还原

以聚四氟乙烯为粘结剂制成了多壁纳米碳管（MWNT）电极.采用恒电位阶跃法和循环伏安法研究了MWNT电极在碱性溶液中的电化学行为，并对碱性溶液中溶解氧在该电极上的电化学还原行为进行了研究.实验结果表明： MWNT电极具有比石墨电极更高的孔隙率和电化学表面积；MWNT电极上O2还原成的反应为准可逆过程；在5～50 mV•s－1的扫描速率范围内，阴极峰电流与扫描速度成线性关系，表明MWNT电极上O2还原成的反应受吸附控制；对碱性溶液中的氧还原反应， MWNT比石墨具有更高的催化活性.     

苯在铑电极上吸附的表面增强拉曼散射光谱研究

利用成熟的电极处理方法成功地获得了苯在粗糙铑电极上电化学吸附的拉曼谱图.详细探讨了电极电位、电解质等因素对苯的电化学吸附的影响.结果表明,苯分子吸附到粗糙铑电极上后,表面拉曼谱图与纯苯本体谱图的差别很大,说明吸附后的苯分子在几何及电子结构上发生了巨大变化.苯分子可能以1,3-环己二烯的结构吸附于铑电极表面.     

Electro-Oxidation of Methane on Roughened Palladium Electrode in Acidic Electrolytes at Ambient Temperatures

The aim of this research is to investigate the electro-oxidation of methane on roughened Pd electrode (RP) in acidic media. The results showed that RP electrode has large surface-to-volume ratio, good reversibility, and facile electron transfer kinetics. Electro-oxidation of methane on RP electrode was studied by cyclic voltammetry and differential pulse voltammetry. Higher electro-catalytic activity and shorter response time for methane oxidation were found on the RP electrode in acidic media at ambient temperatures than those found on the smooth Pd electrode. Differential pulse voltammetry was employed to study the response of RP electrode to various concentrations of methane. The increase in peak current was monitored and related to the methane concentration. The mechanisms for electro-oxidation of methane on RP electrode were also discussed.     

An investigation of the surface enhanced Raman scattering (SERS) from a new substrate of silver-modified silver electrode by magnetron sputtering

'Pure' silver nanoparticles on silver electrode were prepared by magnetron sputtering. The silver-modified silver electrode has good stability and the silver nanoparticles on silver electrode have homogeneous size distribution. Compared with the silver colloid modified silver electrode, there were no any extraneous component ions on the electrode, for the modified silver nanoparticles are prepared by magnetron sputtering. Synchronously, we obtained much higher quality SERS spectra of adenine molecules on the silver electrode modified by magnetron sputtering (SEMMS), and the study of the adsorption behavior of adenine on the silver-modified silver electrode by surface enhanced Raman scattering (SERS) indicated that the silver-modified silver electrode was highly efficient substrates for SERS investigation. From the rich information on the SEMMS obtained from high-quality potential-dependent SERS, we may deduce the adsorption behavior of adenine and the probable SERS mechanism in the process. The probable reasons are given.     

镍铁异常共沉积研究

本文应用环盘电极并根据环电极上Fe~(2+)离子氧化的极限电量及盘电板上Fe~(2+)离子阴极还原对上述环电极过程的屏蔽效应分别建立两种分解Ni-Fe共沉积极化曲线的方法。应用上述方法研究Hg, Ni, Fe和Ni-Fe等电极上Ni和Fe共沉积的动力学规律。结果表明, Ni~(2+)和Fe~(2+)同时在Hg上电沉积遵循它们单独电沉积的动力学规律, 而在Fe电极上Ni~(2+)电沉积被活化, 在Ni电极上Fe~(2+)电沉积却被阻化。此外, 还讨论Ni-Fe异常共沉积的机理。     

Studies of copper(II) sulphide ion-selective electrodes

Changes in liquid junction potentials in copper(II) solutions were measured when different reference electrodes were used. The slope and intercept of a calibration curve for a copper-selective electrode will depend on the selection of reference electrode. The condition of the electrode surface of an Orion copper-selective electrode was studied microscopically and the influence of redox potential on stability of the electrode against corrosion is discussed. Oxidizing solutions will produce pits at dislocations in the material and there will be a mixed electrode potential. The slope, stability, and speed of response are much lower when the surface contains pits. Diamond-polishing was shown to improve the electrode significantly.     

寡聚脱氧核苷酸吸附状态随电位的变化

利用原位电化学及表面增强拉曼散射（SERS）光谱方法对寡聚脱氧核苷酸（26-mers ODN和13-mers ODN）在银电极表面上的吸附状态进行了研究. 实验表明, 单链寡聚脱氧核苷酸在银电极上有很好的SERS光谱,单链寡聚脱氧核苷酸在银表面上主要以碱基腺嘌呤（A）为吸附点,吸附状态随电位变化而变化, 链长较短的寡聚脱氧核苷酸在银电极表面的吸附态对电位变化较敏感.