Application of Potentiostats Using PC in the Phase Analysis of Galvano-Chemis-try

A set of device is designed based on PC to realize the functions of traditional potentiostats in the phase ana1ysis of galvanochemistry. In the device, A/D and D/A conversion is used to measure the electrode potential and convert the voltage for outPut; specific program runs in the PC to regulate and control the system. The effect of the proportion factor Kp on the control variation is researched through certain experiment. Two experiments, the control of electrolysis in constant poteniial and the determination of polarization curves, are designed to test and evaluate the effectiveness of the device. The experimemel results show that the variation between the actualanode potential and the target potential could be controlled to below 1 mV if Kp is set to an appropriate value.

Potentiostatic corrosion protection technology under cavitation condition for 5083-H116 Al alloy

This study aims to characterize the cavitation damage behavior of aluminum alloys in seawater and thus to enhance its cavitation resistance. Potentiostatic experiments were performed under various potential conditions to determine the optimum protection potentials, at which cavitation damage was suppressed. A potential range was selected for the experiment from -2.2 to -1.4 V, which corresponded to the concentration and activation polarization regions on the cathodic polarization curve of the 5083-H116 alloy. After the experiments, the current density-time behavior was investigated, and the degree of surface damage was observed using three-dimensional microscopy and scanning electron microscopy （SEM）, The optimum protection potential was determined to be in the range of-l.9 to -1.5 V under which the cavitation damage was reduced significantly.

A Simplified Microcontroller Based Potentiostat for Low-Resource Applications

A low component count, microcontroller-based potentiostat circuit was developed through the use of operational amplifiers arranged in different feedback configurations. This was developed to alleviate the cost burden of equipment procurement in low-cost and budget applications. Simplicity was achieved in the design by the use of the microcontroller’s native functionalities and a low-cost R/2R resistor ladder digital-to-analogue converter. The potentiostat was used to investigate the Ni2+/Ni(s) redox couple in a 3-electrode cell with a silver/silver chloride reference electrode and graphite counter and working electrodes. Linear sweep voltammograms were ob-tained at scan rates of 10, 20, 30 and 40 mV/s. The analysis of the peak current versus (scan rate)1/2 plot indicated that the Ni2+/Ni(s) reduction, though conforming to the Randles-Sevcik equation, was a non-reversible redox reaction.

Electrochemical behavior of Fe(Ⅲ)in Na_(2)SiO_(3)-SiO_(2)-Fe_(2)O_(3)molten salt

The high-temperature requirement for liquid iron smelting via molten oxide electrolysis presents significant challenges.This study investigates the electrochemical reduction of Fe(Ⅲ)in a novel low-temperature electrolyte,Na_(2)SiO_(3)-SiO_(2)-Fe_(2)O_(3),utilizing cyclic voltammetry and square wave voltammetry techniques.The results show that Fe(Ⅲ)reduction occurs in two steps:Fe(Ⅲ)+e^(−)→Fe(Ⅱ),Fe(Ⅱ)+2e^(−)→Fe,and that the redox process of Fe(Ⅲ)/Fe(Ⅱ)at the tungsten electrode is an irreversible reaction controlled by diffusion.The diffusion coefficients of Fe(Ⅲ)in the molten Na_(2)SiO_(3)-SiO_(2)-Fe_(2)O_(3)in the temperature range of 1248–1278 K are between 1.86×10^(−6)cm^(2)/s and 1.58×10^(−4)cm^(2)/s.The diffusion activation energy of Fe(Ⅲ)in the molten salt is 1825.41 kJ/mol.As confirmed by XRD analysis,potentiostatic electrolysis at−0.857 V(vs.O_(2)/O_(complex)^(2-))for 6 h produces metallic iron on the cathode.

Rapid detection of organophosphorus pesticide residue on Prussian blue modified dual-channel screen-printed electrodes combing with portable potentiostat

A novel electrochemical method for the rapid detection of organophosphorus pesticide residues was realized on a dual-channel screen-printed electrode （DSPE） that was integrated with a portable smartphone-controlled potentiostat. The two carbon working channels of DSPE were first modified by electrodepositing of Prussian blue. The channels were then modified with acetylcholinesterase （ACHE） via Nation. The inhibition ratio of AChE was detected by comparing the electrical current of acetylthiocholine （ATCh） that was catalyzed by the enzyme electrodes with （channel 1） and without （channel 2） organophosphorus pesticide. Inhibition ratios were related with the negative logarithm of the organophosphorus pesticide （trichlorfon, oxamyl, and isocarbophos） concentrations at optimum experimental conditions （pH 6.9 of electrolyte, 0.2V working potential, 2.5μL AChE modification amount, and 15 min inhibition time）. The linear equations were 1%=32.301gC＋ 253.3 （R=0.9750） for isocarbophos, I% = 35.991gC＋ 270.1 （R = 0.9668） for chlorpyrifos, and 1% = 33.701gC＋ 250.5 （R = 0.9606） for trichlorfon. The detection limits were calculated as 10-7 g/mL. Given that the inhibition ratios were only related with pesticide concentration and not with pesticide species, the proposed electrodes and electrometer can rapidly detect universal organophosphorus pesticides and assess pesticide pollution.

Optimization of the thermoelectric properties of poly(nickel-ethylenetetrathiolate) synthesized via potentiostatic deposition

The coordination polymer poly（nickel-ethylenetetrathiolate） （poly（Ni-ett））, formed by nickel（Ⅱ） and 1,1,2,2-ethenetetrathiolate （ett）, is the most promising N-type organic thermoelectric material ever reported; it is synthesized via potentiostatic deposition, and the effect of different applied potentials on the optimal performance of the polymers is investigated. The optimal thermoelectric property ofpoly（Ni-ett） synthesized at 0.6 V is remarkably greater than that of the polymers synthesized at 1 and 1.6 V, exhibiting a maximum power factor of up to 131.6μW/mK2 at 360 K. Furthermore, the structure-property correlation ofpoly（Ni-ett） is also extensively investigated. X-ray diffraction （XRD） and X-ray photoelectron spectroscopy （XPS） analyses revealed that the larger size of crystalline domains and the higher oxidation state of poly（Ni-ett） synthesized at 0.6 V possibly results in the higher bulk mobility and carrier concentration in the polymer chains, respectively, accounting for the enhanced power factor.

Reliable Remote-Monitoring Electrochemical Potentiostat for Glucose Measurements

Electrochemical methods have been widely used in the chemical and pharmaceutical industries, which require accurate concentration measurements, chemical reaction detections and analyses. The electrochemical potentiostat, the core element in electrochemical instruments, have been discussed as a hot topic addressing the difficulty of applying high-precision constant voltage and picoampere current measurements. Meanwhile, reliable potentiostats are in demand for complicated industrial environments with noises as well as requirements of remotemonitors. This paper describes a potentiostat for industrial glucose measurement that is not only accurate but also fault tolerant to guarantee high reliability in industrial environments. The instrument uses standard industrial communication protocols, proflbus, and a 4-20 mA current loop, for remote control and monitoring. Experimental results show that this design has 0.01% accuracy with 1 mV resolution for voltage applications and 0.01% accuracy with 1 pA resolution for current measurements. The design is also shown to be highly reliable in noisy environments.

外加电流阴极保护系统恒电位仪常见问题探讨

恒电位仪是外加电流阴极保护系统的核心,一旦发生故障,就会直接影响管道阴极保护的有效性。该文主要介绍了恒电位仪在运行过程中存在的一些问题,并提出了改进措施。恒电位仪关机时,管道自然电位偏负或偏正;共用辅助阳极地床时,由于恒电位仪不同回路的相互干扰较强,造成管道电位波动幅度增大。在地磁干扰下,对比了恒电流和恒电位两种运行模式下管道的阴极保护情况,结果显示,恒电位模式下管道阴极保护效果更佳。对于地铁直流杂散电流干扰环境,不同时间段需求的电流不同,推荐采用可预置不同运行模式及参数的恒电位仪,该恒电位仪可根据设置的时间自动跳转运行模式,在地铁运行时间段以大电流恒电流的模式运行,在地铁停运时间段以小电流恒电位的模式运行。该恒电位仪既可在地铁运行期间通过大电流输出来抑制地铁直流杂散电流干扰,又可在地铁停运期间跳转至小电流输出,以防止管道过保护。

基于三电极的便携式重金属离子检测仪研制与应用

该文研制了一种小型化重金属离子检测仪。该仪器具有高精度、稳定、便携等优点,能够精准输出-2.5~+2.5 V范围内的激励信号,通过调节8种不同的增益,可检测pA~mA范围内的电流,满足痕量重金属离子的检测需求。验证了检测仪的4项硬件参数性能,包括:激励信号输出精度、恒电位电路的稳定性、微小电流检测的准确性以及整体伏安性能测试。电化学性能通过在铁氰化钾溶液中以不同扫描速率的循环伏安实验进行验证,得出峰值电流高度与扫描速率的平方根呈线性关系,相关系数(r^(2))均大于0.99。以未经修饰的丝网印刷金电极作为传感器,采用方波阳极溶出伏安法(SWASV)检测Pb^(2+),得到10~100μg/L质量浓度范围内的校准曲线,检出限达0.295μg/L,且重复性良好。通过与台式电化学分析设备Gamry Reference 600+进行比较,得到近乎一致的校准曲线,r^(2)分别为0.9989和0.9991,体现了所研制仪器的可靠性。该仪器在提供强大的检测性能和可靠性的同时,实现了低成本和便携性,可用于环境水体中重金属离子的现场检测。

基于大数据驱动的恒电位仪故障诊断模型

针对目前恒电位仪故障诊断存在的技术难点,融合技术人员在长期阴极保护研究中积累的经验,借助大数据处理和神经网络技术,利用阴保系统信息监测点数据的时序特点,提出利用图卷积神经网络和Transformer模型相结合的故障智能诊断模型,并以恒电位仪无输出的故障为案例,讨论该模型的适应情况.研究结果显示,该模型的诊断精度达97%以上,满足恒电位仪故障诊断要求.

空心纳米柱状电极力-扩散耦合行为研究

文章以纳米尺度离子电池的电极结构为研究对象,建立可考虑表面效应的力-扩散双向耦合理论模型,对其在表面效应和外部载荷作用下的力学响应行为进行系统研究。借助建立的理论模型,研究尺寸效应、表面效应等对恒电压充电条件下空心纳米柱状电极中浓度场、应力场分布规律的影响并分析其内在机制。研究发现在该文条件下,表面效应对电极中环向和轴向应力场有压应力作用,且尺寸越小压应力作用越明显,而对径向应力场的作用则与位置有关。该研究为优化空心纳米柱状电极中的力-扩散耦合行为性能及应用拓展提供了一定的理论基础和参考依据。

降低某气田阴极保护系统故障率的技术探究

某气田强制电流阴极保护系统频繁出现故障,影响气田酸气管道的安全运行。从阴极保护原理、现状及各系统运行情况入手,采用现场调研方式对各系统进行综合分析,总结故障类型,并查找了故障原因。系统发生故障的主要原因有三个:第一,因修建高速公路及架设高压电线而导致杂散电流干扰日益增多,影响系统平稳运行,使管道的阴极保护电流流失;第二,恒电位仪、极化探头和数据采集仪等设备设施发生故障,不能准确地对管道施加阴极保护电流和采集数据;第三,巡检人员对恒电位仪和阴极保护测试桩的巡检不到位,未及时发现故障。采取应对措施后从本质上提高了阴极保护系统的有效性,保障了酸气管道的安全运行。

一种新型数控高频开关恒电位仪的研制与应用

动态直流杂散电流干扰会导致管道电位持续波动,传统恒电位仪以“恒电位”模式运行时无法根据管道保护电位进行实时调整,阴极保护效果不理想。介绍了一种以断电电位为控制电位运行的新型数控高频开关恒电位仪,并在某管道进行了现场测试。测试结果表明:配合土壤管测量断电电位,新型恒电位仪在动态直流杂散电流干扰下控制电位准确、调整实时、运行平稳,显著提升了线路的阴极保护效果。

区域阴极保护在输油站场的应用

本文分析了阴极保护的原理,并以某输油站场为例,探究了区域阴极保护设计思路、方式选择和实施过程。该输油站内被保护体多、分布复杂、电流需求量大,站场建设初期设计时,选用了强制电流阴极保护法,但由于站内管线交叉、结构复杂,强制电流法存在保护不到的盲区,所以选用了牺牲阳极作为辅助保护来实现双重保护,使通电电位符合设计要求,输油站内设备设施和管线达到最佳的保护效果。

Ni-SiC复合镀层电结晶初期动力学分析

利用循环伏安方法和恒电位阶跃技术研究Ni-SiC复合镀层电沉积行为。结果表明:Ni-SiC复合镀层和纯Ni镀层的形核/生长过程符合Scharifker-Hill三维成核模型;在低过电位下,Ni-SiC复合镀层形核/生长过程按三维连续成核机制;高过电位下,形核/生长过程遵循瞬时成核机制,与纯Ni镀层的形核/生长过程具有一致性;无论Ni-SiC复合镀层还是纯Ni镀层,形核弛豫时间tm随负电位的增大呈现有规律递减趋势,相应的Im值基本相近;SiC粉体的引入导致Ni形核的过电位正移和tm的显著减小。

恒电位脉冲法制备聚苯胺薄膜及其表征

采用恒电位脉冲法制备聚苯胺薄膜,利用扫描电子显微镜(SEM)、红外光谱(IR)、X射线衍射(XRD)及荧光光谱对所制备的薄膜进行比较与表征.分别考察了循环周期、占空比及脉冲时间对薄膜形貌的影响.SEM形貌分析结果表明,随着占空比的减小,聚苯胺薄膜表面颗粒细化;随循环周期的增加,聚苯胺薄膜由片层结构转变为纵向生长的颗粒状结构.荧光光谱分析结果表明,聚苯胺薄膜具有光致发光性能,发射峰位置约520 nm,且发光强度随占空比的增大而增强.电化学性能测试结果表明,恒电位脉冲电位法制备的聚苯胺薄膜具有良好的电容特性.

二甲基甲酰胺中钬镍合金的电沉积

研究了在二甲基甲酰胺 (DMF)体系中钬的电还原及钬与镍的电解共沉积 .结果表明，由于微量水在电极上还原形成不溶的导电性差的膜层，使钬单独沉积很困难 .恒电位电解用于制备钬镍合金， EDAX,SEM和 XRD用于分析镀层，得到了黑色粘附性好的非晶态钬镍合金镀层，钬的含量可高达 72.7％ .

三电极电化学传感器的恒电位仪设计

三电极电化学传感器在化学、生物和环境监测等领域的应用越来越广泛,为了充分发挥其性能,并实现测量仪器的便携性,选用AT89S8252单片机和A/D、D/A转换器等IC芯片,设计了一种用于传感器电流信号检测的便携式恒电位仪。该恒电位仪通过电压负反馈调节系统使电化学传感器的工作电压等于基准电压,并保持恒定。为检测仪器的性能,用一个电路模型等效三电极电化学传感器进行了测试,实验结果表明该恒电位仪具有很好的精度。

电沉积制备Gd-Co合金膜的研究

在353K的乙酰胺-尿素-N aB r熔体中,P t、Cu电极上,Co(Ⅱ)+2e→Co(0)是一步完全不可逆反应,测得0.060m o l.L-1CoC l2-乙酰胺-尿素-N aB r中,Co(Ⅱ)在P t上,传递系数α=0.28,扩散系数D0=4.68×10-5cm2.-s 1,Cu上α=0.28,D0=4.06×1-0 7cm2.-s 1。G d(Ⅲ)不能单独还原为G d(0),但可以被Co(Ⅱ)诱导共沉积。由恒电位电解法得到非晶态的G d-Co合金,G d的含量随阴极电位的负移,G d(Ⅲ)/N i(Ⅱ)摩尔比增大以及电解时间延长而增大。

脉冲阴极电沉积羟基磷灰石涂层

对脉冲阴极电沉积与恒电位阴极电沉积制备的羟基磷灰石涂层膜进行了对比实验。结果表明:由于脉冲电沉积的一个关断时间使离子得以从溶液本体向电极表面扩散,在下一脉冲来临时浓差极化的减小有利于HAP的生长;在一定的导通时间下,关断时间的延长有利于羟基磷灰石的沉积,但时间的过度延长不利于羟基磷灰石的沉积;当通电时间为5 s时,其最佳关断时间为2 s;沉积时阴极极化的增强虽有利于膜的生长,但极化过于强烈(阴极电位为-1.0 V(vs SCE)时,涂层易脱落。