铅酸蓄电池是应用最为广泛的二次电池。
The lead-acid battery is an extensively used secondary battery.
镁二次电池是一种有良好前景的化学电源。
Rechargeable magnesium battery is a promising electrochemical power source.
综述了锂离子二次电池负极材料的研究和进展。
Studies and developments of anode materials for lithium ion secondary battery are re - viewed.
正极材料的研究是锂离子二次电池的核心技术之一。
The research and the development on the current situation of the lithium-ion battery anode materials are reviewed in this paper.
二次电池(可充电)包括铅酸,镍镉,和潜在的镍氢。
Secondary batteries (rechargeable) include lead-acid, nickel-cadmium, and potentially nickel-hydrogen.
本发明的锂二次电池为使用该正极材料的锂二次电池。
The invention also relates to a lithium ion secondary battery using the cathode material.
储氢合金,合金表面改性方法,电池和碱性二次电池负极。
Hydrogen-absorbing alloy, method of surface modification of the alloy, negative electrode for battery and alkaline secondary battery.
认为聚砜(PSU)适合用作大功率锌银二次电池壳体材料;
The article indicated that the PSU was a suitable material for case of high power AgO-Zn secondary battery.
综述了最近几年对于锂离子二次电池正极材料氧化锰锂的研究。
In this paper, the latest progress on lithium manganese oxide as cathode materials of lithium ion secondary battery was reviewed.
非水电解质二次电池负极材料,制造方法,和锂离子二次电池。
Non-aqueous electrolyte secondary battery negative electrode material, making method, and lithium ion secondary battery.
二次电池电极及制造方法,以及二次电池、复合电池,以及车辆。
Secondary cell electrode and fabrication method, and secondary cell, complex cell, and vehicle.
指出壳体材料和工艺的改进将显著提高锌银二次电池的性能水平。
It was believed that the improvement of battery case material and the sealing technology would improve obviously the performance of AgO-Zn secondary battery.
锂二次电池;正极材料;钒氧化物;金属掺杂;纳米材料;电化学。
Rechargeable lithium battery; Cathode material; Vanadium oxide; Metal doping; Nanostuctural material; Electrochemistry.
而高性能电解质材料的研究与开发是锂离子二次电池的关键技术之一。
One of the critical techniques is to study and develop new high energy density electrolyte materials.
介绍了用于聚合物锂二次电池的正极材料及固体聚电解质的一些最近报道。
This paper introduces some recent reports on cathode materials and solid polyelectrolyte used in polymer lithium secondary batteries.
过去20年大约有200种以上的材料尝试着作为锂二次电池的正极材料。
More than 200 materials have been evalauted for use in positive electrodes of secondary lithium batteries over the past two decades.
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 results of this study provided a new thought for structure design and development of a potential cathode material for rechargeable magnesium batteries.
动力型锂离子二次电池是电动汽车、电动工具的电力来源,市场前景广阔。
Power type lithium ion batteries which are used in electric vehicles and other electric tools, are believed to be a splendid future.
该二次电池包括对置的正极和负极,正极和负极之间的隔膜,以及电解液。
The battery includes a cathode and an anode oppositely arranged with a separator in between, and an electrolytic solution.
它具有比静电电容器大得多的能量密度,又有比二次电池大得多的功率密度。
They are also called battery capacitors, for their high energy density and high power density.
本发明公开了非水电解质二次电池及非水电解质二次电池用正极的制造方法。
The invention discloses a nonaqueous electrolyte secondary battery and the method for manufacturing the positive electrode of nonaqueous electrolyte secondary battery.
采用磁控溅射方法制备金属锑薄膜,并把它作为锂离子二次电池负极进行研究。
Metallic antimony thin film was deposited by magnetron sputtering and it was investigated as anode materials for lithium-ion batteries.
研究了二次电池循环寿命试验控制系统的工作原理和电路设计及实现的关键技术。
The work principle and the key technology of a control system used for circulation life test of secondary batteries are presented.
锂离子二次电池具有能量转换效率高、环境污染小、便于携带、使用方便等特点。
Rechargeable lithium ion batteries have attracted worldwide attention because its high energy invert efficiency, good to environment, easy to carry and convenient for using.
此外,公开了通过使用所述电极活性材料制造的电极和包含所述电极的二次电池。
Also, an electrode manufactured by using the electrode active material and a secondary battery including the electrode are disclosed.
锂二次电池有机硫化物电极材料包括有机二硫化物、有机多硫化物和硫化聚合物等。
The organic sulfides electrode materials for lithium secondary batteries include organodisulfide, orga- nomultisulfide, sulfurized polymers, etc.
锂二次电池金属硫化物电极材料包括二元金属硫化物、尖晶石硫化物、磷硫化物等。
The metal sulfides electrode materials for lithium secondary batteries include binary metal sulfides, thiospinels, oxysulfides, and thiophosphates etc.
本文研究了SL—080接枝膜与水化三醋酸纤维素膜在锌二次电池中阻挡枝晶的性质。
The properties of SL-080 grafted membrane separator and hydrocellulose triacetate (HCTA) membrane separator had been studied as a zinc dendrite growth barrier in secondary cells.
本文研究了SL—080接枝膜与水化三醋酸纤维素膜在锌二次电池中阻挡枝晶的性质。
The properties of SL-080 grafted membrane separator and hydrocellulose triacetate (HCTA) membrane separator had been studied as a zinc dendrite growth barrier in secondary cells.
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