Simultaneous decolorization of azo dye and bioelectricity generation using a biocathode microbial fuel cell
生物阴极型微生物燃料电池同步降解偶氮染料与产电性能研究
At present studies with biological cathodes have drawn much research attention on account of the characteristic of biocathode, which is inexpensive and sustainable alternative.
由于生物阴极MFC构造和运行费用较低,具有更优越的可持续发展性,现在已经引起了很多研究学者的兴趣。
Preparation of the Hydrogen Evolution Electrode in Aluminum-Water Hydrogen Generator System;
电化学铝—水制氢体系析氢阴极的制备
The study on electrodeposited Ni-S and Ni-W-S alloy cathodes for hydrogen evolution
电沉积Ni-S、Ni-W-S合金析氢阴极的研究
Design, Preparation and Characterization of Electrode with Catalytic Activity for Hydrogen Evolution Reaction;
催化析氢活性阴极设计、制备与表征
The Preparation and Study of the Activated Anode for Hydrogen Evolution Used in Chlor-alkali Industry;
氯碱工业用析氢活性阴极的制备与研究
Preparation of Ni-Mo-P Active Cathode and Its Hydrogen Evolution Behabvior in Chlor-alkali Electrolyte Solution
Ni-Mo-P活性阴极制备及析氢行为的研究
Preparation of Ru-Mn oxide-coated titanium cathodes and their hydrogen evolution features
Ru-Mn氧化物涂层钛阴极的制备及其析氢性能
Effect of Cathodic Polarization on the Susceptibility to Hydrogen Embrittlement of 907 Steel
阴极极化对907钢氢脆敏感性的影响
Electrochemical Preparation and Electrocatalytic Mechanisms of Ni-S Active Cathode for Hydrogen Evolution
镍硫析氢活性阴极的电化学制备及其电催化机理
An external jolt of electricity helps generate hydrogen gas at the cathode.
在外部电流下能在阴极处产生出氢气。
a primary cell consisting of a zinc anode, a cathode of mercury oxide, and an electrolyte of potassium hydroxide.
由锌正极汞阴极氢氧化钾电解液组成的电池。
Hydrogen Embrittlement of Titanium in Sea Water under Cathodic Polarization;
工业纯钛在海水中阴极极化条件下的氢脆研究
Studying the Effect of Cathodic Polarization on the Susceptibility of 907 Steel to Hydrogen Embrittlement
阴极极化对海水中907钢氢脆敏感性影响研究
Influence of Cathodic Hydrogen Charging on Plastic Deformation Behaviour at Crack Tip of Structure Steel
阴极充氢对结构钢裂尖形变行为的影响
The Study of Hydrogen Peroxide Production by Electrochemical Cathode Reduction of Oxygen
关于氧阴极还原法制备过氧化氢的研究
Prepared Cathode Material and Analyzed Cathode Reaction in Electro-Fenton System;
Electro-Fenton体系阴极材料的制备和阴极过程分析
In particular, the potential developments and the application on the cathode of the high temperature steam electrolysis are put forward.
对阳极材料在高温电解制氢领域阴极上的应用前景进行了展望。
The hydrogen in the gauge is ionized by electron emission from a heated cathode.
在离子计内的氢气是用一个加热阴极放射电子来电离的。
ELECTROCATALYTIC REDUCTION AND ELECTROINITIATED POLYMERIZATION OF ACETYLENE ON COPPER/GRAPHITE ELECTRODES
乙炔在铜/石墨阴极上的电催化还原加氢和电引发聚合