1) PbO_2-SPE composite electrode
PbO2-SPE组合电极
1.
The electrocatalytic activity of the PbO_2-SPE composite electrode to the electrooxidation reactions of 2-methylpyridine were studied with the cyclic voltammetry and steady state polarization curves.
分别采用热压法和热压-电镀法制备PbO2-SPE组合电极,通过循环伏安和稳态极化曲线测量,研究了这两种电极对2-甲基吡啶电氧化反应的电催化活性,同时考察了工作电极电解液中有、无液相支持电解质电位与电流密度的关系及不同对电极电解液情况下,电流密度与过电位和过电位与槽压的关系。
2.
The current response at the PbO_2-SPE composite electrode and cell voltage were analyzed with or without liquid supporting electrolyte in the anolytes as well as in different catholytes.
通过PbO2-SPE组合电极在阳极液中有、无液相支持电解质及不同阴极液情况下的循环伏安曲线和线性伏安曲线比较,证明该组合电极对羟基新戊醛氧化有较好的电催化作用。
2) PbO_2/SPE composite membrane electrode
PbO2/SPE复合膜电极
3) Cu SPE composite electrode
Cu-SPE复合电极
4) lead dioxide electrode
PbO2电极
1.
Improvement of lead dioxide electrode for the application in the electrochemical treatment of biorefractory organic wastewater;
PbO2电极在工业领域具有广泛的应用基础,具有较高的析氧电势和电催化活性,被认为在电化学处理难降解有机废水方面有重要的应用前景。
5) Ti/PbO2 electrode
Ti/PbO2电极
1.
The electrocatalytic performance of Ti/PbO2 electrode was investigated during the electro-chemical oxidation of phenol in H2SO4 solution by cyclic voltammetry.
用循环伏安法研究了Ti/PbO2电极在苯酚硫酸溶液中的电催化作用。
6) PbO2 electrode
PbO2电极
1.
High strength NH3-N in landfill leachate was treated by hydroxy radical oxidation generated from electrolysis with self-prepared PbO2 electrode on Ti base mingled with La to enquire into the mechanism of hydroxy radical action on NH3-N.
利用自制掺La的Ti基体PbO2电极,通过电解产生的羟基自由基氧化处理垃圾渗滤液中的高浓度NH3-N,探讨羟基自由基与NH3-N作用的机理,系统考察了电流密度、pH值、不同电解质等因素对NH3-N去除率的影响。
2.
The pure PbO2 electrode and the composite PbO2-MnO2 electrode, modified by adding powder manganese mineral (75% MnO2, Mn powder), were prepared by the high pressure molding method.
采用高压塑片法制备了纯PbO2电极及掺杂锰矿粉的PbO2复合电极,通过扫描电镜、加速寿命测试对电极性能进行了考察,并探讨了用PbO2复合电极对弱酸性桃红BS溶液进行的电催化降解机制和工艺条件。
补充资料:组合模式或组合振动
分子式:
CAS号:
性质:在红外光谱中通常出现很多的弱吸收,组合模式或组合振动系指对应于两个或多个基本振动频率之和起源,它的弱吸收于多原子分子振动态相互作用的振子的非谐性。与基频振动及倍频所引起的吸收相比,这些吸收是比较弱的。
CAS号:
性质:在红外光谱中通常出现很多的弱吸收,组合模式或组合振动系指对应于两个或多个基本振动频率之和起源,它的弱吸收于多原子分子振动态相互作用的振子的非谐性。与基频振动及倍频所引起的吸收相比,这些吸收是比较弱的。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条