参比电极

cān bǐ diàn jí
  • reference electrode
参比电极参比电极
参比电极[cān bǐ diàn jí]
  1. 在酸性介质中用玻璃pH电极作参比电极测定硫离子的新方法

    A Potentiometric Method for Determination of Sulfide Ion with pH Glass Electrode as Reference Electrode in Acid Media

  2. 全固态SiC参比电极的研制及应用

    Preparation and application of the whole-solid SiC reference electrode

  3. 新型消化道动态pH监测参比电极管的研究

    A new type of reference electrode tube for dynamic monitoring of the acidity in digestive tract

  4. 将溶胶凝胶技术与丝网印制技术相结合研制了一种新型复合陶瓷碳pH电极和参比电极,并组合制备了pH复合电极。

    A method for preparing pH electrode by silica sol gel technique and screen printing technique was proposed .

  5. 在深入分析胃食道pH值动态监测方法的基础上,提出了一种基于自适应共振理论(ART)适用于外参比电极胃食道pH值动态监测信号的分析算法。

    An algorithm based on adaptive resonance theory ( ART ) is used for outer reference electrode dynamic gastroesophageal pH monitoring signal analysis .

  6. 把经聚苯胺修饰的碳纤维电极安置入该针型参比电极内构成复合针型微pH传感器。

    The micro needle-concentric pH sensor was constructed by inserting the polyaniline-modified carbon fibre electrode in the needle reference electrode obtained above .

  7. 阴极保护用的LS型微渗漏参比电极

    Micro Leakage Reference Electrode for Cathodic Protection

  8. Kelvin探头参比电极技术在大气腐蚀研究中的应用

    Applications of Kelvin probe technique in the studies of atmospheric corrosion

  9. 使用Kelvin探头参比电极技术进行薄液层下电化学测量

    Electrochemical measurements under thin electrocute laer using Kelvin probe reference electrode

  10. 检测方式为直流安培检测,工作电极为Ag电极,参比电极为Ag/Agcl电极。

    The detection was by means of DC amperometer detector with Ag as working electrode and Ag / AgCl as reference electrode .

  11. 以氯化十六烷基吡啶(PC)滴定剂,用涂膜石墨电极为指示电极,甘汞电极为参比电极。

    Cetylpyridinium chloride ( CPC ) solution is used as titrant . Smear membrane graphite electrode and calomel electrode are used as indicator electrode and reference electrode .

  12. 使用Kelvin探头参比电极技术研究液层厚度对氧还原速度的影响

    An investigation on oxygen reduction under thin electrolyte layer using Kelvin probe reference electrode

  13. 采用自行设计的参比电极后置式三电极电化学测量电池,模拟大气腐蚀的状态,对气相缓蚀剂的电化学性能进行了研究,探讨了V2缓蚀剂的作用机制。

    Anti-corrosion mechanism of V2 vapor phase inhibitor was investigated by electrochemical analysis .

  14. 用SnO2基电极作炼铝电解质中参比电极的初步研究

    Studies of sno_2-based electrode used as reference electrode in molten bath of aluminium electrolysis

  15. 本实验采用三电极体系,其中以Pt丝为辅助电极,Ag/AgCl为参比电极,镀金石英电极为工作电极。

    In the study , Pt wire as counter electrode , Ag / AgCl as reference electrode , with the quartz electrode plated gold form a three electrodes system .

  16. 采用MEMS技术,在硅片上制备了分别以Au、Pt、Pt为电极材料的工作电极、对电极以及准参比电极的微型三电极系统。

    Based on MEMS technology , a micro three - electrode system including an Au working electrode , a Pt counter electrode and a Pt pseudo-reference electrode was produced .

  17. 以NiO(YSZ)作为敏感电极,Pt作为参比电极,YSZ作为固态电解质,制备了传感元件,研究了不同温度下其对NO的敏感性。

    Sensing element was prepared using NiO ( YSZ ) as sensing electrode , Pt as reference electrode and YSZ as solid electrolyte .

  18. 在等摩尔的KCl和NaCl熔体中研究了Ag/AgCl、金属Pt丝和石墨等参比电极的性能。

    The behaviors of Ag / AgCl ( 10 % ), Pt wire and graphite rod in fused equimolar NaCl KCl as reference electrodes were investigated at 700 ℃ .

  19. 本文介绍为实现带有参比电极的ISFET测量探头微型化而研制成的一种新型探头。

    In order to realize miniaturization of ISFET with reference eletrode , a new measurement probe has been investigated .

  20. 建立了一种PC微流控芯片封合之后,在通道内分别把三个金膜微电极修饰成葡萄糖氧化酶修饰工作电极、Ag/AgCl参比电极、Pt对电极的方法。

    A method was established for individual modification of three gold microelectrode bases sealed in the channel into a GOD enzyme working electrode , an Ag / AgCl reference electrode and a platinum counter electrode , respectively .

  21. 吸附有Anti-IgG的银柱电极、参比电极和已知浓度IgG溶液,组成高灵敏电位型免疫传感器。

    A potentiometric immunosensor is composed of Ag electrode with immobilized Anti-IgG , a reference electrode and a solution of given concentration IgG .

  22. 研究了以银电极为指示电极,饱和甘汞电极为参比电极,用自动电位滴定法测定维生素B1含量。

    Determination of the concentration of Vitamin B_1 by the method of automatic potentiometric titration was studied by using silver electrode as indicator electrode and saturated calomel electrode as reference electrode .

  23. 以氟化镧(掺杂)的单晶片和多晶电解质管分别作为固体电解质,Sn、SnF2为参比电极,Pt网为待测电极,构成Sn,SnF2LaF3Pt气体敏感元件。

    The sensors of Sn , SnF 2 LaF 3 Pt was prepared with Sn ? SnF 2 reference electrode . LaF 3 single crystalline piece and polycrystalline tube were used as solid electrolyte in the two kinds of sensors .

  24. 以其电极为工作电极,Ag/AgCl为参比电极,Pt丝为对比电极,多孔聚四氟乙烯膜作为透气膜制成传感器。

    The CO gas sensor is based on MWNTs power micro-electrode as working electrode , an Ag / AgCl as reference electrode , a Pt wire as counter electrode , and a porous polyethylene film which is in direct contact with the gas-containing atmosphere .

  25. 其测量依据是离子选择电极和参比电极组成的原电池的电位与离子浓度满足Nernst方程,通过测量原电池的电位,进行相应的计算就可得到被测液的离子浓度。

    The basis of this method is that the voltage of primary battery which is composed by the ion selective electrode and the reference electrode satisfies the Nernst equation with the ion concentration .

  26. 采用三电极体系,Ni(OH)2/NiOOH为对电极,CNTs-Ni(质量比为1:9)为工作电极,Hg/HgO为参比电极,30%的KOH作为电解液。

    Three-electrode system is introduced to test the difference . Ni ( OH ) _2 / NiOOH is used as the counter electrode , CNTs-Ni ( the mass ratio is 1:9 ) as the working electrode and Hg / HgO as the reference electrode .

  27. 以氯离子选择性电极为指示电极,甘汞电极为参比电极,用电位滴定法测定维生素B1注射液的含量,通过电位突跃来判断滴定终点。

    The potentiometric titration for determination of vitamin B 1 injection was presented . A chloride ion selective electrode and a calomel electrode were used as indication electrode and reference electrode , respectively . The end-point was detected by the breakpoint of electric potential .

  28. 以LaF3(掺杂5%CaF2)单晶为固体电解质,Na2SO3、Na2O为参比电极,含不同SO2浓度的空气为待测电极构成敏感浓差电池,对空气中SO2浓度进行测量。

    To measure density SO_2 in the air , a electrolyte sensor is prepared with Na2SO_3 ? Na_2O as the reference electrode , LaF_3 as the electrolyte and the air with SO_2 as the sensitive electrode .

  29. 传感器阵列:本文采用外购的pH电极、p-Na电极、p-K电极和p-Ca电极以及相应的参比电极组成的电极阵列作为电子舌系统的味觉传感器,用于对待测液体作出响应。

    Sensors array : Sensors array is made up of ion selective electrodes ( pH , p-Na , p-K , p-Ca ) and reference electrode . The main function of electrodes is response to liquid samples .

  30. 因此,研制了一种与CP-F1相配套的石墨参比电极,并论证了石墨参比电极的可靠性。

    So , we have developed the comparison electrode of a kind of graphite related to the CP-F1 solid electrolyte , and have proved its dependability .