Influence of electric parameters on MAO of AZ91D magnesium alloy using alternative square-wave power source

Micro-arc oxidation （MAO） process was carried out on AZ91D alloy in alkaline borate solution using an alternative square-wave power source with different parameters. The effects of voltage, frequency and duty cycle on the coatings were investigated by orthogonal experiment. It is found that the thickness of coatings increases with the increase of voltage and duty cycle, but decreases with the increase of frequency. The structure and morphology of the coatings also depend on voltage, frequency and duty cycle. The coatings become more porous and crack with increasing voltage and duty cycle. The coating is thin and transparent when the voltage is lower than 120 V. The corrosion resistances of different coatings were evaluated by polarization curves and electrochemical impedance spectroscopy （EIS） in 3.5% NaCl （mass fraction） solution. When the optimized values of voltage, frequency and duty cycle are 140 V, 2 000 Hz and 0.4, respectively, the anodic coating shows the best corrosion resistance.

Square-Wave Adsorptive Cathodic Stripping Voltammeteric Determination of Manganese (II) Using a Carbon Paste Electrode Modified with Montmorillonite Clay

Manganese is an essential micronutrient for all organisms;however at high concentrations it has a toxic effect. Manganese toxicity is a serious constraint to crop cultivation since it is taken-up by plants and can easily be passed into the food chain again causing symptoms of Parkinson’s disease. A fully validated square-wave adsorptive cathodic stripping voltammetry method has been developed for determination of Mn (II) as a complex with 2-(5’-bromo-2’-pyridylazo) 5-diethylaminophenol in aqueous solutions using a carbon paste electrode (CPE) modified with montmorillonite-Na clay. The results showed that the modified CPE (90% (w/w) graphite powder and 10% (w/w) montmorillonite-Na clay) exhibited excellent electrochemical activity towards the investigated Mn (II) complex in acetate buffer of pH = 5.0. Factors affecting the performance of the modified carbon paste electrode and the sensitivity of the described square- wave stripping voltammetry method, including the electrode composition, concentration of ligand, pulse parameters and preconcentration conditions were examined. A detection limit (S/N = 3) of 0.015μg·L-1 (2.73 × 10-10 mol·L-1) Mn (II) was achieved when a preconcentration time of 240 s was applied. Insignificant interferences from various inorganic and organic species were estimated. The described square-wave adsorptive cathodic stripping voltammetry method coupled with the modified carbon paste electrode has been successfully applied to Mn (II) analysis in different water samples.

Square-Wave Drive for Synchronous Reluctance Machine and its Torque Ripple Analysis

Synchronous reluctance machine(SynRM)can be perceived as a special type of permanent magnet synchronous machine(PMSM),and shares similar control method,i.e.the sine-wave current drive with sinusoidal phase currents.In this paper,square-wave drive,which is employed for permanent magnet brushless(BLDC)motors,is employed for the SynRM,in order to economically reduce the cost of rotor position sensor.It is revealed that the torque density and efficiency are slightly sacrificed,whereas torque ripple is deteriorated,proving the SynRM with square-wave drive still promising for the cost-sensitive application if torque ripple is not considered as a critical issue.To further investigate the additional pulsating torque under square-wave drive,mathematical model based on a-b-c phase inductance and d-q axis inductance are established,together with the time-stepping FE calculated currents.It is concluded that the harmonics in the currents tend to cause non-sinusoidal variation of the magnetic reluctance,which can be represented as additional inductance harmonics.The harmonics of the current and inductance interact with each other,thus undesirable torque ripple components are produced.

Differential Pulse Voltammetric Simultaneous Determination of Paracetamol and Omnipaque on Boron Doped Diamond Electrode: Application to Natural Tomato, Carrot, Cucumber Juices and Wastewater

This article describes the use of a boron-doped diamond electrode (BDDE) as an electrochemical sensor for the simultaneous determination of omnipaque (OMP) and paracetamol (PCM) in perchloric acid medium (HClO4 0.1 M) and in complex matrices such as tomato, carrot and cucumber juices and waste water from the Treichville University Hospital. Voltammetric studies allowed us to have well-defined oxidation peaks at distinct potentials of OMP (E = 0.5 V/SCE) and PCM (E = 0.7 V/SCE). Under optimized conditions, well-defined quantities of OMP and PCM, introduced simultaneously by metered additions, gave linear responses in concentration ranges of 259.8 - 467.2 μM for OMP and 58.73 - 116.3 μM PCM. The detection limits obtained are 7.23 μΜ and 3.6 μΜ respectively for OMP and PCM with recovery rates between 85.8% ± 0.1% and 92.6% ± 0.1% for OMP and between 99.9% ± 0.1% and 101.2% ± 0.4% for the PCM. This technique has been successfully used to simultaneously detect these pharmaceuticals in these complex environments. It allows recovery of OMP and PCM respectively up to 97.5% ± 0.0% and 91.6% ± 0.3% in tomato juice;100.0% ± 0.0% and 95.2% ± 0.2% in carrot juice;101.4% ± 0.1% and 97.3% ± 0.3% in cucumber juice;100.1% ± 0.9% and 100.9% ± 0.1% in wastewater. The relevance of this technique for the simultaneous detection of OMP and PCM in tomato, carrot, cucumber juices and in waste water can be studied in the context of the contamination of certain fruits and vegetables by the substances organic pharmaceuticals released into the environment without prior treatment.

石墨烯负载Pt催化剂的制备及对甲酸的电催化氧化

采用恒电位电化学还原技术制得石墨烯电极,然后采用循环伏安方法在石墨烯基体上电沉积一层Pt纳米微粒.采用电化学测试技术研究Pt/石墨烯电极材料的电子传递性能及对甲酸电催化氧化性能.相对于商用Pt电极材料,Pt纳米微粒/石墨烯电极材料对甲酸表现出优异的电催化氧化活性,氧化峰电流显著提高.该种石墨烯负载Pt催化剂有望用作直接甲酸燃料电池的优良电极材料.

纳米α-Fe_(2)O_(3)/壳聚糖修饰玻碳电极的电化学行为研究

通过不同温度煅烧获得不同比表面积的α-Fe_(2)O_(3)纳米颗粒,将纳米α-Fe_(2)O_(3)与壳聚糖制成复合材料。利用滴涂法,将纳米α-Fe_(2)O_(3)/壳聚糖复合材料修饰在玻碳电极上,并通过循环伏安法研究纳米α-Fe_(2)O_(3)/壳聚糖/玻碳电极对铁氰化钾电化学性能的影响。结果表明:随着烧结温度从280℃提高到700℃时,α-Fe_(2)O_(3)纳米颗粒的比表面积由136.5m^(2)/g变为2.1m^(2)/g。纳米α-Fe_(2)O_(3)/壳聚糖/玻碳电极能显著提高铁氰化钾的电化学性能,与裸电极相比,氧化和还原电流均显著提高,其电化学催化性能与其纳米α-Fe_(2)O_(3)比表面积密切相关,比表面积越大峰电流就越强。在最佳实验条件下,浓度在510^(-4)~510^(-3)mol/L范围内,铁氰化钾的还原电流与浓度呈良好的线性关系,检出限为1.25×10^(-5)mol/L,该修饰电极重复性和稳定性较好。

差分脉冲伏安法间接检测氯吡脲

氯吡脲可以抑制铁氰化钾的还原反应,基于此建立了差分脉冲伏安法(DPV)间接测定氯吡脲浓度的新方法。为减小试验工作量,本文选取试验次数少、可靠性强的均匀设计法,采用其中的表U1*0(108),对包括支持电解质硫酸钾浓度、铁氰化钾浓度、多壁碳纳米管的浓度、铅笔芯的有效长度、扫描电位范围和富集时间等6个条件进行了6因素10水平优化试验。在最佳条件下,铁氰化钾的DPV还原峰电流下降值ΔI与氯吡脲浓度在0.75~1.75μmol/L范围成正比,检测限为4.20×10^(-2)μmol/L,氯吡脲体系可能共存的物质不干扰测定。采用本方法对施加过氯吡脲的猕猴桃果实进行测定,与标准方法LC-MS的检测结果一致。

伏安极谱仪测定海水中活性态痕量金属

阳极溶出伏安法是一种可以直接用于海水中痕量金属元素检测分析的有效方法,不仅能够实现多元素同时检测,而且不需要样品预浓缩处理.通过伏安极谱仪,研究了富集电位和富集时间等关键参数对阳极溶出伏安法测定痕量金属铜、铅、镉、锌的影响,对过滤后的海水样品直接进行检测,实现了烟台四十里湾不同站位海水中活性态痕量金属铜、铅、镉、锌的测定,为海水中痕量金属元素的形态分析及生物可利用性研究提供了有效技术手段.

形貌可控二氧化锰薄膜电极的制备及其性能研究的实验设计

采用循环伏安电沉积法在碳布上制备MnO_(2)薄膜电极,探究扫描速率对所制备电极材料的结构、形貌和电化学性能的影响。运用拉曼、扫描电子显微镜对材料的结构和形貌进行表征,通过循环伏安法和恒电流充放电对比了不同扫描速率下制备的电极材料在1 mol/L Na_(2)SO_(4)溶液中的超电容性能。研究发现通过调节电沉积的扫描速率能够可控合成不同形貌的MnO_(2),电沉积的扫描速率为40 mV/s时制备的样品的电化学性能最好。通过对本实验的学习,学生可以更好地了解新能源领域的前沿动态,掌握材料制备新工艺以及先进的测试表征技术。通过实验内容与所学理论知识相结合,能显著提高学生的动手能力、分析问题和解决问题的能力,激发创新思维。

羟基磷灰石的电化学制备及其除氟性

采用清洁简便的多扫循环伏安法制备出羟基磷灰石(HAP),利用X射线衍射仪与红外光谱仪分析了合成的中间产物二水磷酸氢钙(DCPD)、最终产物HAP的晶面结构与官能团。扫描电镜显示HAP的表面形貌呈现分散性较好的棒状结构。同时,以水中F^(-)为吸附对象,研究了水中条件参数如pH、温度、阴离子含量等对所合成HAP吸附F^(-)容量的影响。结果表明,在pH为3~6的范围内,HAP对F^(-)的吸附量随pH升高逐渐增大,并在pH为6时达到最大;pH在6~10的范围内,HAP对F^(-)的吸附量随pH升高逐渐下降。水中可能共存的阴离子如Cl^(-)、NO_(3)^(-)、SO_(4)^(2-)、CO_(3)^(2-),不干扰HAP对F^(-)的吸附。在15~55℃的温度范围内,温度升高,HAP吸附容量增加,并在55℃时达到8.36 mg/g的最大吸附量,高于文献中同类材料的吸附量;经过4次吸附-脱附试验,HAP对模拟废水中F^(-)的去除效果依然符合国家标准。此外,HAP对F^(-)的吸附是一熵增、吸热的自发过程,符合Langmuir-Freundlich、Dubinin-Radushkevich两种吸附等温模型,并遵循颗粒内扩散的动力学反应机制。

改性氮化碳/铜基MOF纳米复合材料修饰电极对草甘膦的电化学检测研究

使用铜基MOF材料(Cu-BTC)和含羰基杂环的介孔氮化碳(CN)合成的纳米复合材料修饰电极构建了电化学传感器,采用差分脉冲伏安法检测水环境中的草甘膦。该传感器的检测机理是通过Cu^(2+)与草甘膦发生络合反应,使得响应电流发生降低。所制备的材料通过扫描电子显微镜、透射电子显微镜、X射线衍射技术、X射线光电子能谱和傅立叶变换红外光谱等进行表征,确认了其形貌与结构。实验结果表明,该传感器具有高的灵敏度,检出限为0.1576 pg/L,线性范围为10^(-6)~10^(-12)g/L,对草甘膦具有良好的选择性。当评估该传感器以检测实际水样中的草甘膦时,回收率达到94%~107%,表现出很高的准确性和实用性。

伏安法测电阻的待测电阻选择方法

研究了伏安法测电阻的基于中学物理实验标配电表参量选择待测电阻的方法,结果表明:既要依据相对系统误差,又要依据匹配条件,综合选择待测电阻;给出了方法运用的实例,深化了伏安法测电阻的认识,奠定了精准设计实验教学的基础.

DMI−LiNO3离子液体类似物室温电沉积钕铁硼薄膜

研究1,3-二甲基-2-咪唑啉酮(DMI)−LiNO_(3)离子液体类似物在室温条件下电沉积钕铁硼薄膜的可行性和反应机理。结果表明,循环伏安曲线中−1.83 V(vs Ag)处的还原峰对应于Fe(II)被还原为金属Fe,−2.01 V(vs Ag)处的还原峰对应于B(III)被还原为B。Fe(II)和B(III)的电化学还原反应是受扩散控制的不可逆过程,313 K下Fe(II)和B(III)的扩散系数分别为3.03×10^(−6)和6.74×10^(−7) cm^(2)/s。此外,XRD分析表明,在DMI−LiNO_(3)−Nd(CF_(3)SO_(3))_(3)−FeCl_(2)−H_(3)BO_(3)体系中以铝为基底电沉积2 h的产物含有NdFe_(3)B_(3);SEM和EDS分析表明,阴极产物中Nd、Fe和B元素呈均匀分布;XPS分析表明,钨基底表面中Nd、Fe和B的质量分数分别为27.44%、27.90%和7.51%。

氯化镁熔盐水合物的电化学性质研究

熔盐水合物一般是指水盐物质的量比小于或等于阳离子水合数或配位数的无机盐熔体,对其性质进行研究有助于深入了解无机盐结晶水合物的脱水过程和脱水机理。测定了不同组成的MgCl_(2)-H_(2)O体系以液态存在的最低温度及其在不同温度下的电导率,并采用循环伏安法研究了MgCl_(2)-H_(2)O体系和MgCl_(2)-KCl-H_(2)O体系的电化学性质。结果表明:在相同温度下,MgCl_(2)-H_(2)O体系稀溶液的电导率随着含水量的降低先增大后逐渐减小,当含水量相同时,MgCl_(2)-H_(2)O体系电导率随着温度的升高逐渐增大;在浓溶液和熔盐水合物中,相同温度下电导率随着含水量的降低逐渐减小;对于MgCl_(2)-H_(2)O体系,当达到氧化或还原电位时,阳极和阴极电流均随着含水量的增加而明显增大;在MgCl_(2)熔盐水合物中加入KCl后,熔盐水合物体系中Cl-浓度增大,Cl-置换了水合镁离子中的部分水分子,使氢的还原更加容易;在MgCl_(2)·6H_(2)O脱水过程中,Cl-的加入可以抑制MgCl_(2)·6H_(2)O水解反应的发生,从而更有利于MgCl_(2)·6H_(2)O的脱水。

纳米银修饰ITO电极快速测定水中吡虫啉

利用恒电压沉积纳米银制备了对吡虫啉响应良好的电化学传感器。采用扫描电镜(SEM)、电化学阻抗谱(EIS)对电极进行了表征。探讨了缓冲液pH、扫描速率、干扰物质对实验结果的影响。研究表明,最佳实验条件(0.01 mol/L、pH=7的PBS缓冲液,扫描速率100 mV/s)下,在10~100μmol/L浓度范围内含吡虫啉线性伏安扫描的还原峰电流与其浓度呈线性关系(R2=0.980 0),LOD值为0.04μmol/L。该修饰电极具有电稳定性良好、可重复使用等一系列优点。对河水的添加回收率为90.05%~103.1%,与液相色谱测定的结果相符,表明该传感器在实际样品检测和环境保护中具有良好的应用前景。

基于差分脉冲伏安法快速检测花椒油树脂中的麻味物质

麻味物质含量是花椒油树脂的重要品质指标,文章基于电化学原理中的差分脉冲伏安法首次建立了一种采用未修饰的丝网印刷电极测定花椒油树脂中麻味物质的快速检测方法,通过优化电化学工作站中的富集时间、电压以及待测液中的甲醇占比、pH值,并以紫外分光光度计检测法为对照构建出了该方法。结果表明,以未修饰的丝网印刷电极检测花椒油树脂中麻味物质的适宜条件:富集时间为120 s,富集电压为0.2 V,甲醇在待测液中占比小于5%,pH值为1,2,3,山椒素的电流值与其浓度在2~50 mg/L范围内呈良好的线性关系(R^(2)=0.999),加标回收率在97.60%~108.40%之间,检出限为0.22 mg/L。经验证,该方法与行业标准GH/T 1290—2020方法具有良好的检测一致性(RSD=4.75%),建立的快速检测方法既具有操作简单、方便快速的优点,又兼具传统方法的准确性与重复性,因此可以作为花椒及其制品中麻味物质的快速检测方法进行科学研究与企业生产实践,且有望基于该方法开发出便携式麻味物质快速检测仪器。

基于激光雕刻石墨烯电极的伏安法实验教学新方案

伏安法是仪器分析课程的重要章节和教学难点,其现有实验教学方案在理论融合和应用拓展等方面存在不足。本文通过引入较为前沿的激光雕刻石墨烯电极体系,丰富内容如扩散电流理论和电催化现象模拟,延伸应用如奶粉香兰素检测,帮助学生深入理解方法的基本原理、研究动向和应用价值。实验综合成本低、电极可批量制备,适合教学开展。

微流体压力驱动的扫描电化学池显微镜长时间稳定成像

为了提升扫描电化学池显微镜(SECCM)对复杂形貌表面电化学活性成像能力,以及避免探针尖端微液滴蒸发和结晶,进而实现长时间、稳定成像,构建了基于纳米移液管探针微流体压力驱动的扫描电化学成像系统。对探针尖端开口处的微液滴流量补偿、复杂表面形貌同步电化学活性成像可靠性等进行了研究。首先,构建了基于移液管探针微流体压力驱动的SECCM扫描成像系统。接着,建立了移液管微流体压力驱动的探针检测数值模型,研究了探针末端背压与探针尖端流体流量间的关系。然后,在理论模型分析的基础上,实验测试了微流体驱动新方法对具有较大表面形貌特征的玻碳电极材料和铝合金材料表面高分辨率形貌和电化学活性同步成像能力。实验结果表明:新方法可对硬质材料表面(样品表面高度起伏为探针开口直径20倍以上)实现长时间、稳定的电化学成像。新系统的研制将为研究人员在材料电化学、金属材料腐蚀研究提供强有力的工具。

对羟基苯甲酸电化学传感器的制备及应用

在玻碳电极表面修饰石墨烯,以对羟基苯甲酸为印迹分子,邻苯二胺为功能单体,通过电聚合,构建对羟基苯甲酸电化学传感器,通过循环伏安法(CV)和方波伏安法(SWV)法研究其性能,优化了聚合模板分子与功能单体的摩尔比、洗脱液种类、富集时间及洗脱时间。结果表明,分子印迹传感器的峰电流与对羟基苯甲酸溶液浓度在1.00×10^(-9)~1.00×10^(-2)mol·L^(-1)范围的内负对数呈良好的线性关系,相关系数为0.9956,检出限为2.013×10^(-10)mol·L^(-1)(S/N=3),回收率在98.7%~106%,相对标准偏差在2.5%~3.5%之间。制备的分子印迹电化学传感器可以用作复杂样品的检测,能满足快速现场检测的要求。

电分析技术用于含铜废水检测研究

工业废水中的Cu(Ⅱ)离子严重威胁环境和人类健康,因此检测水溶液中Cu(Ⅱ)离子含量具有重要意义。金属有机框架材料因其比表面积大、可吸附位点多、可设计性强等特点而备受关注。采用溶剂热方法制备了Ni-MOF材料,对裸玻碳电极进行Ni-MOF材料修饰。用CV法和EIS法对Ni-MOF材料修饰电极的电化学性能进行表征,结果表明修饰后电极的导电性下降,说明导电性较差的Ni-MOF材料已经固定在玻碳电极表面。优化了Ni-MOF修饰电极对Cu(Ⅱ)离子进行溶出伏安法的实验参数,优化实验参数为醋酸-醋酸钠缓冲溶液做支持电解液,电解液pH为5,富集电位为-1.2 V,富集时间为130 s。Ni-MOF修饰电极对不同浓度的Cu(Ⅱ)离子检测,溶出峰电流与离子浓度的线性关系为I(μA)=2.8+1.89C(μM),灵敏度为1.89μA·μM^(-1),线性相关系数R^(2)=0.997,5次重复检测Cu(Ⅱ)离子结果表明Ni-MOF修饰电极的稳定性较好。