The overcharge behavior of Li-ion batteries was studied from the rate of charge, the type of the anode materials and anode to cathode capacity ratio.
从充电倍率、负极材料的种类以及正负极材料的电容量匹配等方面,研究了锂离子电池的过充电行为。
In the present work, some novel Sb-based intermetallic anode materials with high capacity are developed and their cycling stability is improved by applying nano-technology and composite-technology.
本文旨在开发高容量的新型锑基金属间负极材料,并采用纳米技术和复合技术来改善它们的循环稳定性。
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.
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。
Several factors influencing capacity of anode are elucidated, as well as properties and characteristics of some anode materials applied.
阐述了影响阳极容量的各个因素,详细介绍了已经在使用的阳极材料的性能和特点。
The results shows the capacity of the anode oxidation membrane decreases with the increasing of oxidation potential, and there exists relationship between impedance and behavior anode polarization.
提出了钽的氧化反应式及反应控制步骤;得出其氧化膜电容量随着氧化电位的增加而减少,阻抗与阳极极化行为存在相关关系。
The results shows the capacity of the anode oxidation membrane decreases with the increasing of oxidation potential, and there exists relationship between impedance and behavior anode polarization.
得出其氧化膜电容量随着氧化电位的增加而减少,阻抗与阳极极化行为存在相关关系。
Transition metal compound has been the focus as anode material in lithium ion battery since it has high lithium storage capacity and new energy storage mechanism.
过渡金属化合物由于具有较高的储锂容量和崭新的储能机理,成为近些年锂离子电池负极材料中的研究热点。
It is proposed that tbe production present capacity of Graphiteanode shall be kept and the quality of graphite anode shall be promoted.
提出了石墨阳极生产应维持现有生产能力,进一步提高质量的设想。
The principles of heightening the specific capacity of aluminum anode foil for low voltage electrolytic capacitor are expatiated systematically.
本文对低压电解电容器阳极铝箔高比电容化的原理作了系统性阐述。
One of the hotspots in the research of lithium-ion batteries is the development for the high-capacity and high-cycling-behavior anode materials to replace the conventional carbon-based materials.
开发高容量、高循环稳定性的负极材料以取代传统的碳材料成为近年来锂离子电池研究的热点之一。
The electrolytic capacitor anode of Titanium suboxide concerned in this paper have the advantage of high capacity, little leakage current, resourceful and low cost.
与其他类型电解电容器阳极相比,钛资源丰富,价格低廉,但钛阳极的氧化膜形成困难。
The electrolytic capacitor anode of Titanium suboxide concerned in this paper have the advantage of high capacity, little leakage current, resourceful and low cost.
与其他类型电解电容器阳极相比,钛资源丰富,价格低廉,但钛阳极的氧化膜形成困难。
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