电化学阻抗法研究环氧膜的吸水性能

电化学阻抗法研究环氧膜的吸水性能罗小雯，陈月辉，李善君，周伟舫（复旦大学高分子科学系，化学系，上海，２００４３３）关键词电化学阻抗谱，环氧膜，交联密度，吸水性能水在环氧树脂膜中有较强的吸收和扩散能力，例如ＸＤ７３４２／ＴＭＡＢ于１９５℃固化２４ｈ，在...     

电化学阻抗谱法研究环氧膜的渗水机理

本工作测量了覆盖环氧膜的铝电极在NaCl溶液中的电化学阻抗谱, 并求得了该膜的膜电阻、膜电容和环氧膜与底金属间的腐蚀电阻及双电层电容。由膜电容求得该膜的介电常数为5.2。此种膜未浸入NaCl溶液前的介电常数为4.9。将上述数据与未覆盖环氧膜的铝电极的电化学阻抗数据比较, 可认为溶液是经上述膜中的化学通道而渗入膜内的。     

环氧/氟碳复合涂层失效过程的电化学阻抗谱研究

用电化学阻抗技术研究了环氧富锌底漆、环氧云铁中间漆和氟碳面漆构成的多层复合涂层在四种不同腐蚀环境中的失效过程.涂层在四种环境中的失效速率按下列顺序降低:3.5%NaCl浸泡+紫外照射,45℃湿热环境,35℃盐雾试验,3.5%NaCl浸泡.尽管涂层在四种不同环境中失效速率差别很大,但不同环境中阻抗中频区的相角,尤其是10Hz频率的相角,与涂层的低频阻抗值变化趋势非常接近.由于中频区的相角可以快速测量,因此可以作为在工程现场定性评价涂层保护性能的参数.     

人工破损涂层的电化学阻抗谱研究

利用交流阻抗技术快速评价人工破损涂层的性能 ,并探讨颜料的防锈作用机理     

有机涂层失效过程的电化学阻抗和电位分布响应特征

结合使用电化学阻抗谱(EIS)和扫描Kelvin探针(SKP)技术研究了在质量分数为3.5%的NaCl溶液中的铁基有机涂层劣化过程特征. 结果表明, 根据EIS和SKP的响应特征, 可将涂层劣化过程分为3个主要阶段: (Ⅰ) 涂层渗水阶段. 此时, 涂层渗水阶段的EIS阻抗持续减小, 但保持单容抗弧特征, SKP特征是电位持续降低, 但分布保持均匀; (Ⅱ) 基底金属腐蚀发生阶段. 此时, EIS阻抗快速下降, 并产生第二时间常数; SKP特征为表面电位差增大; (Ⅲ) 基底金属腐蚀发展与涂层失效阶段. 此时, EIS出现扩散尾, SKP电位差保持较大数值. 实验结果表明, 在研究有机涂层劣化过程中, EIS和SKP的结合使用能够互相补充完善, 获得涂层劣化过程中更为准确\, 可靠的变化信息.     

电化学阻抗谱测定环氧涂膜吸水率

The amount of water sorption of an epoxy coating can be determined approximately by measuring the electrochemical impedance spectra of both an Al electrode coated with the epoxy film and a preliminary wetted Al electrode covered tightly with the epoxy film. By comparing the double layer capacity of these two electrodes, the amount of water sorption can be estimated. The resistivity of the electrolytic solution in the film may by thousands times larger than that of the bulk solution. This is due to the fact that the cross-section area of the water passages in the film is of molecular size. The short-distance interaction between the ions and the wall of the water passage retards the transport of the ions seriously. The structure of the water passages is discussed.     

水性环氧铝粉涂层/碳钢体系的腐蚀电化学行为

应用电化学阻抗谱(EIS)和扫描振动电极技术(SVET)研究了碳钢基体上含人造缺陷的水性环氧铝粉涂层浸泡在3.5%NaCl溶液中的腐蚀电化学行为.结果表明,浸泡初期,涂层缺陷处为阳极活性区,涂层阻抗随时间延长逐渐降低,活性区逐渐扩展;之后,由于腐蚀产物的自修复作用使整个涂层/金属界面电化学反应活性降低,导致涂层阻抗快速增加.浸泡后期,由于腐蚀介质渗入到涂层/基体界面,出现了更多的阳极活性区,涂层产生破坏剥离.     

无机富锌/环氧云铁/脂肪族聚氨酯复合涂层失效过程阻抗与吸水性变化的EIS研究

应用电化学交流阻抗谱研究不同厚度的无机富锌/环氧云铁/脂肪族聚氨酯复合涂层体系在3.5%NaCl和紫外辐射联合作用下的失效过程.结果表明,复合涂层的保护性随着该涂层总厚度增大而增大,但是其增加的幅度逐渐减小.环氧云铁中间漆的屏蔽作用主要体现在服役前期,而在后期则涂层的耐蚀性主要依靠富锌底漆的作用,同样厚度下的富锌底漆对涂层防护性能的提高作用更为明显.复合涂层体系吸水率的变化呈现三段式的特点,涂层越薄,吸水饱和期越短,涂层性能下降越快.     

乙酸基和羟基对固化的环氧树脂吸水性能的影响

应用称重法、差示扫描量热法和腐蚀测试法研究固化的环氧树脂的吸水行为。实验结果表明,该树脂中的羟基改为乙酸基后可降低树脂的饱和吸水率,并增大水在树脂中的扩散能力。邻甲酚环氧树脂用乙酸线型酚醛酯树脂固化后所得的树脂(EPA)在30℃时饱和吸水率为0.84%(质量分数),而用线型酚醛树脂固化所得的树脂(EP)的则为1.97%;水在EPA和EP中的扩散活化能分别为40和48kJ.mol^-1.这可归因于乙酸基中的甲基的憎水性,降低了吸水率,却因乙酸基的弱相互作用增强了链的柔顺性,而有利于水在链空间中的扩散。EPA涂层/金属铝界面的特殊结构降低了该界面的吸水率,从而提高了该涂层的防护性能。     

硬脂酸包覆滑石粉对水在环氧涂层中传输性能的影响

硬脂酸包覆滑石粉对水在环氧涂层中传输性能的影响;环氧树脂;硬脂酸;缓蚀剂;包覆;电化学阻抗谱     

Variable Mott-Schottky plots acquisition by potentiodynamic electrochemical impedance spectroscopy

Potentiodynamic electrochemical impedance spectroscopy provides extraction of potential-dependent space charge layer capacitance from potentiodynamic impedance spectra of non-stationary semiconductor–electrolyte interface. The new technique has been applied for acquisition of Mott-Schottky plots of cathodically treated TiO₂ anodic films. Cathodic treatment in 1 M H₂SO₄ increases donor density and flat band potential of TiO₂. Freshly doped films show hysteresis in the space charge layer capacitance in cyclic potential scans. The subsequent cycling eliminates the hysteresis but preserves the greater part of the doping effect. Presented at the 4th Baltic Conference on Electrochemistry, Greifswald, 13–16 March 2005     

Local electrochemical impedance spectroscopy: A window into heterogeneous interfaces

The ability to probe surface reactivity on a local scale has led to a new insight into the comprehension of the electrochemical reactivity in relation with the microstructure of the surface. Among the different techniques developed in recent years, local electrochemical impedance spectroscopy has the advantage of using a transient approach to locally characterize a stationary electrochemical system without the need to add any redox mediator in solution, which is a great advantage for the study of different systems.In this review, particular attention is paid to the different ways of measuring the local impedance, and the technique implementing a local current measurement in solution is deeply discussed. This local electrochemical impedance spectroscopy journey also encompasses a discussion about technical and experimental limitations.     

Study on the sorption of water into epoxy resins by means of electrochemical impedance spectroscopy

In this work the relationship between structure and water sorption for epoxy films was studied using electrochemical impedance spectroscopy. It is shown that the electrochemical impedance spectroscopy can be applied to obtain information about the amount of water absorbed by the epoxy film and the water permeation through the film, while only the amount of water absorbed is obtained from the “sorption method”. The free volume is the decisive factor for both the amount of water in the cured epoxy film and water permeation through the film.     

Simultaneous visualization of surface topography and concentration field by means of scanning electrochemical microscopy using a single electrochemical probe and impedance spectroscopy

Scanning electrochemical microscopy visualizes concentration profiles. To determine the location of the probe relative to topographical features of the substrate, knowledge of the probe-to-sample distance at each probe position is required. The use of electrochemical impedance spectroscopy for obtaining information on the substrate-to-probe distance and on the concentration of interest using the electrochemical probe alone is suggested. By tuning the frequencies of interrogation, the probe-to-substrate distance can be derived followed by interrogation of processes that carry information on concentration at lower frequencies. These processes may include charge-transfer relaxation, diffusional relaxation at the electrode, and open-circuit potential at zero frequency. A potentiometric chloride sensing microprobe is used herein to reconstruct both topography and the concentration field at a microscopic diffusional source of chloride.     

A monoclonal antibody-based immunosensor for detection of Sudan I using electrochemical impedance spectroscopy

Sudan I monoclonal antibodies (Mabs) were prepared by hybridoma technique and firstly used to develop a Sudan I immunosensor by immobilizing the Mabs on a gold electrode. o-Mercaptobenzoic acid (MBA) was covalently conjugated on the gold electrode to form a self-assembled monolayer (SAM). The immobilization of Sudan I Mabs to the SAM was carried out through a stable acyl amino ester intermediate generated by 1-ethyl-3-(3-dimethylaminopropyl) carbodiimide (EDC) and N-hydrosuccinimide (NHS), which could condense antibodies reproducibly and densely on the SAM. The changes of the electrode behavior after each assembly step were investigated by cyclic voltammetric (CV) technique. The Sudan I concentration was measured through the increase of impedance values in the corresponding specific binding of Sudan I and Sudan I antibody. A linear relationship between the increased electron-transfer resistance (Ret) and the logarithmic value of Sudan I concentrations was found in the range of 0.05-50 ng mL⁻¹ with the detection limit of 0.03 ng mL⁻¹. Using hot chili as a model sample, acceptable recovery of 96.5-107.3% was obtained. The results were validated by conventional HPLC method with good correlation. The proposed method was proven to be a feasible quantitative method for Sudan I analysis with the properties of stability, highly sensitivity and selectivity.     

Dynamic electrochemical impedance spectroscopy of the adsorption and relaxation of polyaniline chains during potentiodynamic redox transformations

A new approach to an equivalent circuit analysis of impedance spectra of a conducting polyaniline (PAni) layer is presented. Film properties are often modeled by constant-phase elements (CPE), which are closer to experimental results than capacitors. We want to take an insight into the CPE. We propose a novel equivalent circuit based on the Frumkin-Melik-Gaikazyan adsorption model, as we suppose that the PAni layer molecules may behave like other adsorbing and relaxing organic compounds. Measurements are performed using recently developed experimental technique—dynamic electrochemical impedance spectroscopy. Obtained spectra are analyzed using the proposed equivalent circuits. Characteristics of several parameters are analyzed and discussed. Published in Russian in Elektrokhimiya, 2007, Vol. 43, No. 9, pp. 1111–1119. The text was submitted by the authors in English.     

Study of the electrochemical behaviour of a carbon steel electrode in sodium sulfate aqueous solutions using electrochemical impedance spectroscopy

The study of a plain carbon steel (AISI 1020) in Na₂SO₄ aqueous solutions at different concentrations was carried out by electrochemical impedance spectroscopy (EIS) in order to determine the corrosion mechanism and to obtain representative corrosion rates of the system. EIS was used to measure corrosion current densities at high concentrations in the range 0.1–1 wt% Na₂SO₄, but in the low concentration range, from 0.001 to 0.01 wt%, a scattered Nyquist plot was obtained. Other electrochemical techniques, such as polarization resistance (PR), Tafel plots and electrochemical noise (EN), were also used in this analysis. The charge transfer resistance was determined and compared with the PR and noise resistance. Electronic Publication     

Application of electrochemical impedance spectroscopy for characterisation of the reduction of benzophenone in acetonitrile solutions

In this study, the reduction of benzophenone (Bzph) Ph₂C=O (Ph: phenyl group) on glassy-carbon electrode was studied in acetonitrile by means of cyclic voltammetry and electrochemical impedance spectroscopy (EIS). Bzph undergoes two one-electron reductions. The first reduction leads to the formation of radical anion [Ph₂·–O]^? and appears to be reversible and diffusion controlled. The second reduction results in the generation of benzhydrol dianion [Ph₂C–O]^2? and seems to be irreversible. A third quasi-reversible wave observable at more anodic potentials can be ascribed to benzhydrol free radical [Ph₂CH–O] and benzydrol anion [Ph₂CH–O]^? redox couple. The EIS spectra demonstrate that the first reversible reduction of Bzph is characterised by the lowest charge transfer resistance while the resistance for the irreversible reduction is significantly greater. The electrochemical behaviour of Bzph on film consisting of multi-walled carbon nanotubes seems to be different. Thus, the findings reveal slower electrode kinetics which can be associated with electrode passivation.     

Evaluating the performance of organic coatings under mechanical stress using electrochemical impedance spectroscopy

Stress in coatings originating from a mechanical load imposed during exploitation is a relatively unexplored field of investigation. Paradoxically, a number of constructions and installations seem to operate under such conditions. The purpose of this work was to investigate the impact of a cyclic mechanical load exerted on coating/metal systems. It was the authors aim to verify whether repeated mechanical stress constitutes a significant factor contributing to coating degradation. Epoxy coated St3SAl steel samples were subjected to 21,000 uniaxial strain/release cycles. The maximum force applied assured maintenance within the elastic deformation region of the metal substrate. The state of the protective film was monitored using electrochemical impedance spectroscopy. The coating response to the mechanical load occurred in a three-stage process. The system subjected to the strain/release cycles revealed signs of degradation earlier compared to a non-strained, reference sample.Contribution to the 3rd Baltic Conference on Electrochemistry GDASK-SOBIESZEWO, 23–26 April 2003.Dedicated to the memory of Harry B. Mark, Jr. (February 28, 1934–March 3rd, 2003)     

One saccharide sensor based on the complex of the boronic acid and the monosaccharide using electrochemical impedance spectroscopy

A novel saccharide sensor based on the covalent interaction between the boronic acid and saccharides was developed. Poly (aminophenylboronic acid) (PABA) was prepared by electropolymerizing 3-aminophenylboronic acid on gold electrode surface in acidic solution. The boronic acid group of the PABA film can form covalent-bond with different saccharides, which can change the dielectric characteristics of the PABA film, and the change of the dielectric characteristic was saccharides concentration dependent. Four kinds of saccharides could be detected by using electrochemical impedance spectroscopy. Good linear relationship and high sensitivity were obtained by this method.