pbo2

  • 网络二氧化铅
pbo2pbo2
  1. The paper studied the degradation of landfill leachate by three-dimensional electrode on PbO2 / Ti anode .

    研究了基于PbO2/Ti阳极的三维电极法处理垃圾渗滤液。

  2. The PbO2 / PbO2-CeO2 was used as an electrode material with stainless steel as substrate .

    报道了在不锈钢基体上电沉积制备PbO2/PbO2-CeO2复合电极材料。

  3. Through the voltammetry curve and anode polarization curve testing , compared with Pt electrode ,β - PbO2 behaves an excellent catalysis and stability .

    通过循环伏安曲线和阳极极化曲线的测试显示,新型电极显示出很好的催化活性,稳定性。

  4. The characteristics and electrochemical behavior of Ti / SnO2 + Sb2O3 / PbO2 anode prepared by thermal decomposition in sulphuric acid solution were studied .

    研究了热分解法制备的Ti/SnO2十Sb2O3/PbO2电极性能以及该电极在硫酸溶液中作阳极使用的电化学特性。

  5. It was proved that the single-chamber microbial fuel cell by use of the self-made cathode ( Ti - β - PbO2 ) was feasible .

    利用钛基二氧化铅电极构建单室微生物燃料电池是可行的。

  6. Among the electrodes , the electrodes of Ti / SnSbOx / PbO2 and Ti / SnSbOx / Pt had highest electric potential .

    其中Ti/SnSbOx/PbO2电极和Ti/SnSbOx/Pt电极的阳极电位最高,钌钛涂层电极、石墨电极、不锈钢电极和锡锑氧化物涂层电极次之,钛基二氧化锰电极阳极电位最低。

  7. The hydroxylation reaction of phenol and the electrochemical oxidation in phenol aqueous solution was studied on different electrode material ( Ti / PbO2 , Ti / Ru-Ti-Sn ) .

    本文在不同电极(Ti/PbO2,Ti/Ru-Ti-Sn)上研究了苯酚羟基化和苯酚溶液的电化学氧化反应。

  8. The result proves that , the surface of Ti / PbO2 electrode is compact , and the surface oxide coating and interface layer are combining closely so that it is not easy to fall off .

    研究结果表明,制备得到的Ti/PbO2电极表面致密,表层氧化物涂层与中间层结合紧密,不易脱落。

  9. The experiment showed that the combination of SnO2 + Sb2O4 is a better intermediate layer material and will play a important role in Ti / MnO2 and Ti / PbO2 anodes .

    实验表明,SnO2+Sb2O4是一种具有良好导电性和结合力的耐酸Ti基MO2电极中间层材料。

  10. By using Cyclic Voltammetry to study the reduction reaction , copper , titanium , lead , Ti / PbO2 and Ti / MnO2 as cathode respectively , it is proved that sodium metaborate can be electrochemically reduced to sodium borohydride .

    采用循环伏安法,分别以铜、钛、铅、钛、Ti/PbO2和Ti/MnO2作为阴极,对该反应进行实验研究,证实了偏硼酸钠电化学还原制各硼氢化钠的可能性;

  11. The TNT ( 2,4,6 - trinitrotoluene ) alkaline wastewater ( red water ) is st udied . PbO2 / Ti electrode , as one of dimensionally stable anodes ( DSA ), and three kinds of cathodes have been employed in treating this kind of water .

    以TNT碱性废水(又称红水)为研究对象,采用钛基二氧化铅(dimensionallystableanodes)类阳极和不同材料的阴极对该类废水进行电化学处理。