1)oxygen evolution potential析氧电位
1.Comparing the oxidative current efficiencies of these four electrodes in oxidation degradation of six organic pollutants (benzene, benzoic acid, phenol, aniline, nitrobenzene, methyl orange), the oxygen evolution potential and the transfer coefficient of oxidation reaction ( value) of electrode in various medi.比较4种电极氧化降解苯、苯甲酸、苯酚、苯胺、硝基苯以及甲基橙染料6种有机污染物的氧化电流效率,结果表明,电极在各种介质中的析氧电位和氧化反应传递系数(值)是衡量电极能否有效处理有机污染物废水的两个重要指标,其中SnO2电极的析氧电位最高,PbO电极的b值最大,SnO2电极的b 值次之。
2.The result shows that the doping of Mn incresed the oxygen evolution potential and decresaed the charge potential of nickel electrode.实验表明,锰的加入可以降低镍电极反应电位,提高析氧电位;并随着锰含量的增加析氧电位与镍电极反应电位的差值增大,放电比容量增加,大大提高了镍电极的电化学性能。
2)oxygen evolution voltage析氧电位
1.The electrochemical properties,such as chlorine evolution voltage,oxygen evolution voltage,service life and mass loss,of metal anode coatings of Ru-Ti-SnO,Ru-Ti-Sn-O and Ru-Ti-Ir-Sn-O are determined.测定了钌钛、钌钛锡、钌钛铱3 种氧化物涂层电极的极氯电位、析氧电位、强化寿命和强化失重等电化性能,综合考虑氯碱工业中隔膜电解用阳极可选择钌钛或钌钛锡涂层。
3)overpotential for oxygen evolution析氧过电位
1.Research progress in decreasing the anodic overpotential for oxygen evolution in water electrolysis;降低水电解中阳极析氧过电位的研究进展
英文短句/例句
1.A Study on Decreasing the Anodic Overvoltage in Alkaline Water Electrolysis by Additive;添加剂法降低水电解中析氧过电位的研究
2.The treatment of dry-spun acrylic fibre wastewater by coagulation-potential three-dimensional electrolysis-facultative aerobic-aerobic process混凝—过电位三维电解—兼氧—好氧工艺处理干法腈纶废水
3.Electron Microscopic Cytochemistry Localization in Leaf Cells of Stevia rebaudiana Berton with Catalase甜菊叶片细胞过氧化氢酶电镜细胞化学定位
4.A study on the acid cleaning process of the oxide skin on carbon steel has been made with potential tracing.采用电位跟踪法研究碳钢氧化皮的酸洗过程。
5.A New Immunosensor for Serum Myeloperoxidase髓过氧化物酶电位型免疫传感器的实验研究
6.Theφ-pH Figure of PbS-ZnS-H_2O System during Rich-oxygen Leaching of Lead Zinc Sulfide Minerals铅锌硫化矿富氧浸出过程的PbS-ZnS-H_2O系电位-pH图
7.SO-FDTD analysis of EM scattering of magnetized ferrite磁化铁氧体电磁散射的移位算子FDTD分析
8.Electrochemical Properties of the Keggin-type Lacunary Heteropolytungstate Anion and Its Electrocatalysis for H_2O_2 ReductionKeggin型缺位磷钨杂多阴离子的电化学性质及电催化还原过氧化氢
9.The past and state of china,s EMD industry were analyzed.分析了我国电解二氧化锰工业的过去和现状 ;
10.Attachment and Application and Electrocatalytic Behavior of Catalase Biosensor and Electrochemical Investigation of Coordination between Eu~(3+) and Centrin过氧化氢酶传感器及中心蛋白与Eu~(3+)配位作用的电化学研究
11.Preparation of Hydrogen Peroxide Biosensor without Intermedium by Electric Potential Controlling of Hb电位控制血红蛋白(Hb)组装制备无媒介体过氧化氢生物传感器
12.redox potential meter氧化-还原电位测定仪
13.soil redox potential of paddy field稻田土壤氧化还原电位
14.Localizated Analysis of Peroxisome and Cloning of MGBIR1 in Magnaporthe Grisea稻瘟病菌过氧化物酶体的定位分析及MGBIR1基因的克隆
15.Analysis of Brain Stem Auditory Evoked Potential Application in Neonatal Hypoxic Ischemic Encephalopathy脑干听觉诱发电位在新生儿缺氧缺血性脑病中的应用分析
16.A research on application of acidic Electrolyzed Oxidizing Water(EOW) daily disinfection in dialysis room酸性氧化电位水在加强透析室日常消毒中作用研究
17.Effect of interval electrolyzed-oxidizing water treatment on patients with oral and maxillofacial injury口腔颌面外伤后氧化电位水间断口腔喷雾的效果分析
18.The Analysis about Phase Jump When Electromagnetic Wave is Reflected at Interface of Medium;电磁波在介质表面反射过程中位相变化的分析
相关短句/例句
oxygen evolution voltage析氧电位
1.The electrochemical properties,such as chlorine evolution voltage,oxygen evolution voltage,service life and mass loss,of metal anode coatings of Ru-Ti-SnO,Ru-Ti-Sn-O and Ru-Ti-Ir-Sn-O are determined.测定了钌钛、钌钛锡、钌钛铱3 种氧化物涂层电极的极氯电位、析氧电位、强化寿命和强化失重等电化性能,综合考虑氯碱工业中隔膜电解用阳极可选择钌钛或钌钛锡涂层。
3)overpotential for oxygen evolution析氧过电位
1.Research progress in decreasing the anodic overpotential for oxygen evolution in water electrolysis;降低水电解中阳极析氧过电位的研究进展
4)oxygen evolutionultrapotential析氧超电位
5)electrode's potential for oxygen evolution析氧电极电位
6)oxygen overpotential on anode阳极析氧过电位
延伸阅读
表面电位与电动电位表面电位与电动电位surface potentials and electro- kinetic potentials 匕一oom一an dianwe一丫u dlandong dl占nwei表面电位与电动电位(surfaee potentials andeleetrokinetie Potentials)矿物界面双电层的两个重要的电性参数,表示矿物一水界面荷电的程度。浮选时矿物粒子在水溶液中要和各种离子发生作用,作用的结果经常使矿物表面的电性发生变化。故研究矿物表面的电性,即测定表面电位或电动电位的变化,可以找出矿物与浮选药剂作用的一些规律,进而分析矿物与药剂作用的机理。 表面电位是指固体表面与溶液内部的电位差,以申。表示。它主要取决于溶液中定位离子的浓度。表面电位与定位离子的活度之间的关系服从于能斯特方程,故表面电位的表达式为 RT,a+RT,a生 口n一.一二二In甲丁-一二丁In— n厂a千n厂a一式中R为气体常数;T为绝对温度;n为离子价数;F为法拉第常数;a+、a一为正、负定位离子的活度,在稀溶液中就等于它们的浓度;“年、a巴为表面电位为。时的正、负离子的活度。对于一些氧化矿物,H+和OH-离子是定位离子。当n一1,25C时上述表达式可以简化为必。=0.0591(pH。一pH)。式中pH。为表面电位为。时溶液的pH值,即为矿物的零电点。(见零电点与等电.点)可见,当溶液pH值大于矿物的零电点时矿物表面荷负电,反之荷正电。电动电位是指当溶液处在电场作用下,矿物粒子与溶液之间产生相对运动时,滑动界面上显示的电位,以夸表示。这一电位可用电泳法、电渗法、流动电位法或沉降电位法测出。使用得较多的方法是显微电泳法口对于一些氧化矿物,由于它不导电,理论研究上经常测定它的电动电位。 (龚焕高)
