1) zinc-aluminum electrode
锌铝电极
1.
On the basis of the dual-aluminum electrode,the zinc-aluminum electrode was designed by introducing zinc electrode.
在双铝极板电絮凝法的基础上引入锌电极,考察锌铝电极电絮凝法对高氟饮用水的除氟效果。
2) zinc electrode
锌电极
1.
Effect of organic additive on performance of zinc electrode in electrolyte;
电解液中有机添加剂对锌电极性能的影响
2.
A Study on the Electrochemistry Properties of Zinc Electrode The influence of the organic inhibitors on the surface corrosion of zinc electrode;
锌电极电化学性能研究——有机缓蚀剂对碱液中无汞锌电极表面腐蚀的影响
3.
Study on additives for porous zinc electrode of the dry-charged zinc-air cell;
干荷电式锌空气电池锌电极添加剂的研究
3) Zn electrode
锌电极
1.
In the present paper, surface enhanced Raman spectroscopy (SERS) was employed to study the interaction of 4,4’- bipyridine(BiPy) and Zn electrode.
在成功地将表面增强拉曼光谱(SERS)拓展到纯锌电极的基础上,利用SERS对4,4’-联吡啶(BiPy)在锌电极表面的作用进行了研究。
2.
Various roughening procedures for the bare Zn electrode such as chemical etching, electrochemical deposition and the electrochemical oxidation-reduction method were tried to obtain surface-enhanced Raman spectroscopy(SERS) from it and electrochemical oxidation-reduction method was proved effectively.
通过化学刻蚀、电化学沉积和电化学氧化还原等粗糙方法,寻找合适的条件对锌电极表面进行预处理,以期获得吡啶在纯锌电极上的表面增强拉曼光谱(SERS)。
3.
Electrochemical oxidation-reduction method was employed to roughen Zn electrode for obtaining SERS, and potential dependent surface enhanced Raman spectra (SERS) of roughened Zn electrode in KOH solution of different concentration wereobserved.
利用电化学氧化还原法获得了具有SERS活性的粗糙锌电极,现场检测了其在不同浓度氢氧化钾溶液中随电位变化的表面拉曼光谱。
4) zinc foil electrode
锌箔电极
1.
Study on high current density discharge property of the zinc foil electrode;
锌箔电极大电流密度放电性能研究
5) paste zinc electrode
锌膏电极
1.
Studies on the electrochemical behaviors of zinc electrode ( I ) -The effect of additives on the amalgamation paste zinc electrode in alkaline electrolyte;
锌电极电化学行为研究(Ⅰ)——添加剂对碱液中汞齐化锌膏电极的影响
6) Zn-Al alloy anode
锌铝合金阳极
1.
The protection length of the Zn-Al alloy anode of 15.
经计算 ,锌铝合金阳极的保护距离为 15 。
补充资料:锌冶炼烟气制硫酸转化装置(葫芦岛锌厂)
锌冶炼烟气制硫酸转化装置(葫芦岛锌厂)
翼 锌冶炼烟气制硫酸转化装置(葫芦岛锌厂)
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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