1.
A study was made of the effect of cathode material and various operating conditions on the elec- troboc reduchon of glucose.
研究了阴极材料及工艺条件对葡萄糖电解还原的影响。
2.
reduce water(ie to hydrogen)by electrolysis
用电解法把水还原(为氢)
3.
It is to reduce Eu3+ into Eu2+ with electrolyzation method.
采用电解的方法将三价铕还原成二价。
4.
Photopromoted Reducing Degradation of Organic Pollutants by Electrogalvanizing Zinc Plate
光促进电镀锌板还原降解有机污染物
5.
Studies on Oscillatory Electrodissolution of Gold and Nickel and on Oscillatory Reduction of S_2O_8~(2-);
金、镍振荡电溶解及S_2O_8~(2-)振荡电还原研究
6.
Investigation on Vanadium Halide Electrolyte in Redox Flow Battery
氧化还原液流电池卤化钒电解液的性能研究
7.
reductive ammonolysis
还原性氨解(作用)
8.
Study on Electrolysis Reduction of Titanium Dioxide to Titanium in Molten Salt and the Reduction Mechanism;
熔盐电解TiO_2制备钛及其还原机理的研究
9.
Carbon Reduction of Lithium Cobalt Dioxide and Its Dissolution in Sulfuric Acid Solution
废锂离子电池钴酸锂的碳还原和硫酸溶解
10.
Study on Mechanism and Influencing Factors of the Degradation of Recalcitrant Organic Compounds by Metallic Iron and Electrolytic Reduction;
金属铁与电解法还原难降解有机物反应机理和影响因素的研究
11.
The high oxidation-reduction potential and lack of reduced conditions permits aerobes and facultative anaerobes to contribute to the decomposition processes.
高氧化还原电势和缺乏还原条件,使得好氧菌和兼性厌氧菌进行分解或腐化过程。
12.
USES: As raw material in electrolysis Ce-MET, also be used in nonferrous metals.
用途:作电解生产金属铈的原料,还可用在有色金属上。
13.
USES: As raw material in electrolysis LA-MET, or metallurgy and special alloy.
用途:供电解生产金属镧的原料,还可用在冶金及特种合金上。
14.
Experimental researches on photoreduction of azo dyes in the rutile-cathode bioelectrochemical system
微生物电化学体系中金红石可见光还原降解偶氮染料的实验研究
15.
Electrocatalytic Reduction of CO_2 on Nanocrystalline TiO_2 Electrodes Modified by Pt or Sn and Structural Characterization of Electrolytic Fixed Product;
CO_2在铂、锡修饰纳米TiO_2电极上的电催化还原及其电解固定产物的结构表征
16.
redox potential meter
氧化-还原电位测定仪
17.
soil redox potential of paddy field
稻田土壤氧化还原电位
18.
Sulfate-reducing Bacteria and Research Progress of Cr(Ⅵ ) Reduction by Sulfate-reducing Bacteria
硫酸盐还原菌及其还原解毒Cr(Ⅵ)的研究进展