LiFePO_4 materials are prepared by hydrogenous reduction(a method of preparing LiFePO_4 material with prue H_2 gas as protective and reducing gas) with FePO_4·2H_2O.
在溶液中制备FePO_4·2H_2O前驱体,利用氢气还原法于650℃制得了锂离子电池正极材料LiFePO_4,并对其进行了包覆和掺杂。
In order to effectively utilize the ascharite minerals which contain low grade B2O3,the paper studies the vacuum-thermal reduction of ascharite and deoxygenize magnesia into magnesium with calcium carbide as reductant.
为了解决低品位硼镁石矿的合理利用问题,本试验首次以碳化钙为还原剂,应用真空热法还原原理将煅烧后矿石中的游离氧化镁还原为金属镁。
In order to utilize effectively the ascharite mineral which contain low grade B2O3,the vacuum-thermal reduction of roasted ascharite to deoxygenize magnesia into magnesium with silicon-aluminum alloy as reductant was experimentally investigated.
为了解决低品位硼镁石矿的合理利用问题,首次以硅铝合金为还原剂,应用真空热法还原原理将煅烧后矿石中的游离氧化镁还原为金属镁。
Synthesis and Characteristics of LiFePO_4 Materials Prepared by Hydrogenous Reduction
氢气还原法制备LiFePO_4及其电化学性能的研究
Kinetics of Reduction of Hematite by H_2 Using Nonisothermal Thermogravimetric Method
氢气还原氧化铁动力学的非等温热重方法研究
reduce water(ie to hydrogen)by electrolysis
用电解法把水还原(为氢)
The deoxidization effect with hydrogen was superior to that with cyclohexene.
氢气还原活化效果明显优于环己烯还原效果。
Detailed Mechanism on NOx Reduction by H_2 in Automotive Exhaust Gases;
汽车尾气氢气还原氮氧化物的详细机理研究
PREPARATION OF 5-CHLORO-2-METHYL-BENZENAMINE BY MEANS OF HYDROGENATING REDUCTION
加氢还原法制备5-氯-2-甲基苯胺
Elementary Discussion on High-Hydrogen Reduction of Processed Gas on C207 and C301 Methanol Catalysts
C207和C301甲醇催化剂精制气高氢还原浅析
Gravimetry for the Determination of Ru in Difficultly Dissolved Ru-B Solder Using NaBH_4-H_2 Reduction
硼氢化钠-氢还原重量法测定难溶解钌-硼焊料中的钌
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
The Preparation of Cathode Material LiFePO_4 for Lithium Ion Battery by the Hydrogen Thermal Reduction Method;
氢热还原法制备锂离子电池正极材料LiFePO_4
Optimization and Evaluation of TTC-dehydrogenase Assay on Algal Viability Determination
TTC-脱氢酶还原法测定藻细胞活性的优化与评价
Comparison of Ultrafine Tungsten Powder Produced by Hydrogen Reduction of Blue Tungsten Oxide and Violet Tungsten Oxide
蓝钨与紫钨氢还原法生产超细钨粉的比较
Diesel hydrotreating recycle hydrogen compressor valve device failure analysis and solutions
柴油加氢装置循环氢压缩机气阀故障原因分析及解决方法
Results show that nano-sized ferric oxide has high reactivity, lower reduction temperature for superfine iron powder preparation.
用纳米氧化铁粉末作原料,分别在不同的温度,不同的还原时间下,用氢气还原来制备微细铁粉。
Hydrogen sulphide bearing gas or water is postulated to be an important reductant in several areas.
含硫化氢的气体和水被认为是某些地区的一种主要的还原剂。
Study on H~+ ion Reduction During Charging of Rechargeable Li-Air Battery with Aqueous Electrolyte
水溶液二次锂空气电池充电过程中氢离子还原研究
Determination of Se in Vat Dyestuff by Microwave Digestion-Hydride Generation Atomic Absorption Spectrometry
微波消解-氢化物发生原子吸收光谱法测定还原染料中的硒
Determination of Antimony in Water by Hydride Generation-atomic Fluorescence Spectrometry with L-Cysteine as Pre-reduction Agent
L-半胱氨酸预还原-氢化物发生-原子荧光光谱法测定水中的锑
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