电催化作用

  • 网络electrocatalysis
电催化作用电催化作用
  1. 利用循环伏安法(CV)研究了聚荧光素薄膜修饰电极(PFSE)对尿酸(UA)的电催化作用。

    By cyclic voltammetry ( CV ), the electrocatalysis action of poly ( fluorescein ) film modified electrode ( PFSE ) on Uric acid were studied .

  2. 该修饰电极和传感器对H2O2和葡萄糖都有较好的电催化作用,据此建立对葡萄糖的定量分析进行快速检测的方法。

    The results showed that the modified electrodes and enzyme biosensors exhibited excellent electrocatalysis for H2O2 and glucose . Based on this , an accurate and rapid electroanalytical method for the quantitative analysis of glucose was developed .

  3. 由于贵金属微粒的电催化作用,该修饰电极对H2O2表现出了良好的电流响应。

    Thus modified electrode showed good current response to H2O2 due to the catalytic activity of Platinum and Palladium particles .

  4. 用电化学方法证明生成了在宽pH值范围内具有优良电化学活性的PANI-PAA复合材料,并详细研究了该修饰电极对抗坏血酸(AA)的电催化作用,它能显著降低AA的氧化电位。

    Electrochemical studies confirmed the formation of PANI-PAA composite which exhibited excellent electroactivity over a wide pH range . The electro-oxidation of ascorbic acid ( AA ) was studied in detail . The modified electrode exhibits significantly reduced oxidation overpotential .

  5. 利用循环伏安法,研究了PMGE对DL-酪氨酸电催化作用,建立了一种对DL-酪氨酸进行定量分析的新方法。

    The electrocatalysis reaction of PMGE on DL-Tyrosine was studied by CV , a new method of determining DL-Tyrosine was set up .

  6. 钼磷酸-纳米金修饰电极的制备及其电催化作用

    Preparation and Electrocatalysis of Gold Nanoparticles Supported with Heteropolyanions Modified Electrode

  7. 聚噻吩对醌-氢醌的电催化作用阴阳两极降解废水中氯酚的研究

    Degradation of chlorophenol in the wastewater with anodic - cathodic electrocatalysis

  8. 聚茜素红薄膜修饰电极对去甲肾上腺素的电催化作用

    Electrocatalysis Property of Poly ( Alizarin Red ) Film Modified Electrodes on Noradrenalin

  9. 碳原子线修饰电极对肾上腺素的电催化作用

    Electrocatalysis on the oxidation of epinephrine at the carbon atom wire modified electrode

  10. 聚荧光素薄膜修饰电极对尿酸的电催化作用

    The Electrocatalysis Action of Poly ( fluorescein ) Film Modified Electrode on Uric Acid

  11. 碳纳米管及其复合材料修饰电极的电催化作用研究

    Study on the Electrocatalysis of Multi-wall Carbon Nanotube and Its Composite Material Modified Electrode

  12. 研究了该电极对丙二醛的电催化作用。

    With this electrode , the electrocatalysis of malonaldehyde ( MA ) was studied .

  13. 固相反应法合成Pt/MoO3及其电催化作用

    Solid State Synthesis and Electrocatalysis of Pt / MoO_3 for the Oxidation of Methanol

  14. 磷钼酸修饰铂电极的电化学行为及对甲醇氧化的电催化作用

    Electrochemical Behavior of Phosphomolybdic Acid Modified Platinum Electrode and Its Electrocatalysis Effect to Methanol Oxidation

  15. 氨基酸席夫碱双核铜配合物修饰玻碳电极对抗坏血酸的电催化作用

    Cu (ⅱ) - Serine Schiff-base Complex Modified Glassy Carbon Electrode and Its Electrocatalysis on Ascorbic Acid

  16. 提高合金成分和微观组织的均匀性,并改善合金的表面状态而使其表面形成对表面电极反应有电催化作用的合金层,有利于合金放电电压平台的提高。

    Improving the homogeneity of the alloy microstructure and its surface character will be beneficial to the improvement of its discharge voltage plateau .

  17. 本文报告碳原子线修饰电极两种不同的制备方法以及该修饰电极对于苯二酚的电催化作用。

    The carbon atom wire ( CAW ) modified electrodes were prepared in two methods and electro-catalysis of the modified electrodes to the oxidation of dihydroxybenzenes was revealed .

  18. Pt-WO3/C电极表面活化处理对乙醇和CO的电催化氧化作用

    The effect of surface treated pt-wo_3 / c electrode on ethanol and CO electrooxidation

  19. 研究了修饰在多壁碳纳米管上的ABTS的电化学行为、复合膜中漆酶的直接电化学行为以及对氧气的电催化还原作用。

    The electrochemical behavior of ABTS on multi-walled carbon nanotubes was studied carefully . The direct electron transfer of laccase was realized , and the biosensor was sensitive to oxygen .

  20. 用电化学还原方法制备了一种锇联吡啶氧化还原聚合物(POs-EA)膜修饰电极,并研究了其在磷酸缓冲溶液中的电化学行为和对肾上腺素的电催化氧化作用。

    An osmium bipyridine-containing redox polymer ( POs-EA ) film-modified gold electrode based on an electrochemical reduction method was developed .

  21. 它是一类具有高的共轭结构和化学稳定性的大环化合物,对分子氧有很好的电催化还原作用。

    Because it is a class of the macrocyclic compounds which has a high conjugate structure and chemical stability , it has good electro-catalytic reduction for molecular oxygen .

  22. 在电催化电极的作用下,电化学反应和化学催化作用结合,导致有机分子的电催化降解。

    The combination of electrochemical reaction and chemical catalysis to activate organic molecules by the electrode results in their electrocatalytic degradation .