XRD patterns showed that the cathode material is well-crystallized, homogeneous olivine-type phase, with only tiny trivalence iron impurities.
XRD 图谱表明,阴极材料结晶完整,为均一橄榄石型结构,仅含少量三价铁杂质。
The ferroelectric cathode material is a new kind of functional material.
作为一种新型功能材料,铁电阴极材料的研究日益受人们重视。
The invention also relates to a lithium ion secondary battery using the cathode material.
本发明的锂二次电池为使用该正极材料的锂二次电池。
In recent years, much attention has been paid to cathode material for lithium ion battery.
近年来有关锂离子电池的研究热点之一是氧化物正极材料。
Layered manganese lithium ion battery cathode material is in line with this background needs.
层状锰系锂离子电池正极材料正符合此背景需要。
The electrochemical properties of the cathode material were studied by charge discharge technology.
采用充放电测试技术对电极材料的电化学性能进行了研究。
Because of its small screening radius and short delay time, graphite is chosen as the cathode material.
在电子束产生过程中,屏蔽半径应尽可能地小,且击穿延时时间较短,故选择石墨作为阴极材料。
The extracted beam current depends on operating parameter of source, extraction voltage and cathode material.
引出束流大小与源的工作参数、引出结构和电压以及阴极材料有关。
The invention relates to a preparation method of lithium iron phosphate as cathode material of lithium ion battery.
本发明涉及一种锂离子电池用正极材料磷酸铁锂的制备方法。
The chlorine alkali industry traditionally adopts the ordinary iron or the low carbon steel as the cathode material.
氯碱工业传统上大都采用普通铁或低碳钢作为阴极材料。
The Argonne patents that GM has licensed cover a cathode material that consists of lithium, nickel, manganese, and cobalt.
阿尔贡,通用汽车已授权涵盖了正极材料,包括锂,镍,锰,钴专利。
Zinc is used as the cathode material, not only the source is abundant, and has excellent electrochemical performance.
锌作为化学电源的负极材料,不仅来源丰富,而且具有优良的电化学性能。
Rechargeable lithium battery; Cathode material; Vanadium oxide; Metal doping; Nanostuctural material; Electrochemistry.
锂二次电池;正极材料;钒氧化物;金属掺杂;纳米材料;电化学。
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。
LiFePO4, as the key cathode material to solute the problems, suffers a realization handicap, mainly due to its low electrical conductivity.
磷酸亚铁锂正极材料是解决这些问题的关键材料之一,但该材料极低的本征电导率增加了其应用的困难。
Aim at currently the cathode material capacity is low and the electrolyte electricity chemistry function the worse present condition carried on a research.
针对目前正极材料容量偏低以及电解液电化学性能较差的现状进行了研究。
The results of this study provided a new thought for structure design and development of a potential cathode material for rechargeable magnesium batteries.
该复合物研究结果为镁二次电池正极材料结构设计的开发提供了新的思路。
The amount of Co storage in the earth was limited leading to small market potential as power battery cathode material for EVs, although LiCoO_2 had good p.
钴酸锂由于性能好,而成为当今小型锂离子电池的主角,但世界上钴储量少,作为动力电池材料,市场前景小。
Being a novel functional material, the ferroelectric cathode materials were studied well with the leaded materials for their high electron emission density.
铁电阴极材料,作为一种新型的功能材料,以其高的发射电流密度等优点而受到重视。
From the view of market application, the development status and trends of cathode material LiCoO2 and anode material Graphite were summarized in this paper.
从应用角度阐述了市场对正极材料钴酸锂和负极材料石墨的发展趋势和市场对正负极材料的要求。
Solid solutions of the cathode material with high capacity, excellent recycling ability and good thermal stability can be synthesized by co-doping technology.
通过混合掺杂改性,可以得到容量大、循环性能好、热稳定性高的掺杂锂镍氧正极材料。
An experimental study was conducted under the condition of different temperatures, pressures and voltages with respect to a cathode material already developed.
在不同的温度、压力、电压条件下,对所开发出来的阴极材料进行了电发射特性的试验研究。
The results show that the synthesized material with al doping has good electrochemical properties and can be used as cathode material for lithium ion batteries.
实验结果表明,合成材料经微量掺杂后具有较好的电化学循环性能,可作为锂离子电池的替代正极材料。
It has been becoming very important to improve the capability of carbon cathode material, and father to improve the capacity of lithium ion secondary batteries.
解决电池高容量化的关键材料——碳负极材料的高性能化已成为锂离子二次电池的重要课题。
The technical proposal successfully realizes the valuable constituent recovery and cathode material regeneration of the waste lithium ion battery cathode material.
该技术方案成功实现了废旧锂离子电池阴极材料的有价成分回收和阴极材料再生。
The increasing demand and expensive price on lithium-ion battery cathode material LiCoO2 have prompted the recovery progress of cobalt by hydrometallurgical processes.
对锂离子蓄电池正极材料钴酸锂的高需求及其高价格,推动了钴的湿法回收工艺的进步。
The ferroelectric material is a novel cathode material, which is characterized by its low vacuum requirement, convenient fabrication, low work function and fast reactive rate.
铁电材料作为一种新型的阴极材料,具有真空要求低、制作简单、功函数低、响应速度快等特点。
The service life of aluminum reduction cell can be prolonged by optimization of the cathode material, heat field distribution, roasting and starting process, normal operation.
通过对内衬材质、热场设计、焙烧与启动制度及正常生产维护的优化可有效提高电解槽寿命。
The service life of aluminum reduction cell can be prolonged by optimization of the cathode material, heat field distribution, roasting and starting process, normal operation.
通过对内衬材质、热场设计、焙烧与启动制度及正常生产维护的优化可有效提高电解槽寿命。
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