与锂-铁磷酸盐一样,其他新型材料已经用到了电池的三个主要部件,阳极、阴极和电解液。
As well as lithium-iron phosphate, other innovative materials have been used for the three main battery components of anode, cathode and electrolyte.
当电池释放电能或放电时,能量以相反的方向迁移,从阳极移至阴极。
When a battery powers a product, or discharges, energy travels the opposite way, between its anode and cathode.
典型的传统电池,使用的是电解液,会发生令人讨厌的化学反应,从而损坏电池的阴极。
Conventional batteries, which typically use a liquid electrolyte, can suffer from undesirable chemical reactions that damage the battery's cathode.
电池充电时,能量从阴极移至阳极。
When a battery charges, energy moves between its cathode and anode.
他表示该奈米结构应用于电池的阴极,下一步是促进电池的阳极,并促进电池的储电能力。
Since the nanostructure is applied to a battery's cathode, he said, the next step is to study improving the anode, along with further increasing battery density.
这种电极扮演着两种角色:阳极和阴极,Cui说他的团队正在用原材料的元素制作一个阳极同时也在致力于开发电池的原型。
The electrode made so far acts as a cathode. Cui says his team is tuning the chemistry of the material to make an anode and is working on making prototype batteries.
通用汽车的风险投资部门总裁乔恩Lauckner说:提高能源密度的整个概念涉及到车辆的种类奖项时他表示,目前还不清楚多少钱,新技术将保存,但“我只想说,这是非常重要,它不 是一该电压电流模型使用的锂锰尖晶石阴极制成的锂离子电池(“尖晶石"指的是三维的原子排列)。
The current model of the Volt uses lithium-ion batteries made with lithium-manganese spinel cathodes ("spinel" refers to the three-dimensional arrangement of atoms in the material).
要想让电流通过电解池,你需要一个普通的电池充电器。阳极和针脚里的铜溶解之后会聚集在阴极上。
By running an electrical current through the cell, using an ordinary battery charger, the copper in the anode (and in the pins) dissolves and is deposited on the lead cathode.
经由团队研究证实,将阳极和阴极结合在一起时,锂硫电池的续航力将是一般锂电池至少四倍之多,而且比现在的锂电池更为安全。
Together, the anode and cathode could yield a battery that lasts four times as long and is significantly safer than existing lithium-ion batteries.
当电池充电时,电子被迫从外电路的阴极流向阳极,离子则回到阳极。
During recharging, electrons are forced round the circuit in the opposite direction, and the ions, perforce, return whence they came.
(图)固态能源:平面能源首席执行官斯科特·法里斯拿着一个固态电池阴极,该阴极是使用新的生产技术印刷出来的。
Solid power: Planar Energy CEO Scott Faris holds a solid-state battery cathode printed using new manufacturing techniques.
测量电池是由绝缘的银阴极组成的。
The measuring cell consists of an insulated silver cathode .
燃料电池由阳极、阴极、电解质和外部电路等组成。
Fuel cell consists of anode, cathode, electrolyte and external circuit.
这种结合微弱的特性同样可使电子晶体对太阳能转换器和电池的阴极很有用。
The same weak binding could also make electrides useful in solar energy converters and as cathodes in batteries.
锂离子电池的三个主要功能部分是阳极、阴极和电解液,当然还要使用其它各类材料。
The three primary functional components of a lithium ion battery are the anode, cathode, and electrolyte, for which a variety of materials may be used.
电池充电时,能量从阴极移至阳极。
When a battery charges, energy moves between its cathode and anode .
他表示该奈米结构应用于电池的阴极,下一步是促进电池的阳极,并促进电池的储电能力。
Since the nanostructure is applied to a battery's cathode, he said, the next step is to study improving the anode , along with further increasing battery density.
测量电池是由绝缘的银阴极组成的。
阴极物质主要为氧分子或者过氧化氢,随后在电池反应中消耗,与阳极反应共同产生电能。
In the cathode, substances such asmolecular oxygen or hydrogen peroxide are subsequently reduced in this processand so, in combination with the reaction at the anode, generate electricalpower.
在新、旧管子连接处安装绝缘法兰,破坏了长管道的原电池,即:阳极(新管子)和阴极(旧管子)间电断路。
By insulating flange at the junction between the new and old pipe, the long line galvanic cell is "broken up" - the anode (new pipe) is electrically separated from the cathode (old pipe).
阴极(空气电极)是固体氧化物电解质燃料电池的关键部件之一。
Cathode is one of the key components of the solid oxide fuel cell (SOFC).
这种产品有一种更好的平均粒径比最好的使其适用于制造锂离子电池阴极材料和其他中的具体应用。
This product has a much finer average particle size than Fines making it suitable in the manufacturing of cathode materials for Lithium ion batteries and other specific applications.
通过交流阻抗方法研究了熔融碳酸盐燃料电池阴极材料锂镍氧化物、锂钴氧化物和锂铁氧化物的导电性能。
The conductivity of cathode materials for molten carbonate fuel cell (MCFC), such as lithium nickel oxide, lithium cobalt oxide and lithium ferrite oxide, was studied by AC impedance measurement.
综述了固体氧化物燃料电池(SOFC)阴极材料的性能。
The performance of cathode materials for solid oxide fuel cell (SOFC) was summarized.
讨论了质子交换膜燃料电池运行电流密度和温度、阴极和阳极加湿温度、气体扩散层孔隙率等参数对以上结果的影响。
The effect of the current density and fuel cell temperature, humidified temperature of cathode and anode, porosity of porous diffusion layer on the results mentioned above are discussed.
综述了近年来直接甲醇燃料电池(DMFC)中阴极催化剂研究进展。
The recent development in research on cathodic catalysts for direct methanol fuel cells (DMFC) is (reviewed).
综述了三氧化钼及其水合物在用作锂电池阴极材料、电化学显色材料和电催化材料方面的研究进展。
Recent progress in the research on molybdenum trioxide and its hydrates used as lithium cell cathodic materials, electrochromic materials and electrocatalytic materials is reviewed in this paper.
根据阳极、阴极、和电解液材料的不同,锂离子电池的电压、容量、寿命、安全性会有很大的不同。
Depending on the choice of material for the anode, cathode, and electrolyte the voltage, capacity, life, and safety of a lithium ion battery can change dramatically.
阴极表面,导致内阻增大、活性下降,使德国阳光蓄电池的使用寿命大大缩短。
Cathode surface, led to the decrease of the internal resistance increases, activity, make Germany sunshine greatly shorten the service life of battery.
分析了不同进料浓度和阴极压力对电池性能和甲醇窜流的影响。
Effects of variable methanol inlet concentration and cathode pressure on fuel cell performance and methanol crossover are analyzed.
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