Influence of sputtering power on cyclic performance of Sn thin films as anode of lithium ion battery 溅射功率对Sn薄膜负极材料循环性能的影响
Development of NiO Nanoparticles as Anode Material for Lithium-ion Battery 锂离子电池纳米NiO阳极材料的研究进展
Study on Refining 、 Modification and Electrochemical Performance of Anode Material in Super-iron Battery 高铁电池正极材料的精制、改性及电化学性能研究
The Effect of Graphitizing Degree on Performance of Carbon Anode of Lithium Battery& A Study 石墨化度对锂离子电池炭负极性能影响的研究
Preparation and Characterization of High Capacity Si-Cu/ C Composites as Anode Materials for Lithium-Ion Battery Anodes 锂离子电池中高容量Si-Cu/C复合负极材料的制备与性能研究
Study on Aluminium Anode for Aluminium air Battery 铝空气电池用铝阳极的研究
A pulsed electrodeposition and heat-treatment process was used to prepare copper-tin alloys for the anode of lithium ion battery. 采用脉冲电沉积与热处理相结合的工艺制备铜锡合金,并作为锂离子电池的负极考察其电化学性能。在集流体铜箔上直接沉积锡,然后进行热处理形成铜锡合金层。
Study on zinc anode of zinc-air battery(ⅰ) 锌-空气电池阳极材料的研究(Ⅰ)
Graphite felt could been modified by H_2IrCl_6 when it was used to anode of vanadium battery, and it would put up good electrochemic performance and reversibility. 用作正极时,可用氯铱酸(H2IrCl6)再对已经热和酸混合处理过石墨毡进行修饰处理,修饰后的石墨毡表现出良好的电化学活性和可逆性。
Study on application of lithium boron alloy anode in thermal battery Li(B)合金负极在热电池中的应用研究
The progress of Al anode in aluminum-air battery 铝-空气电池铝负极的研究现状
The recent studies to improve the properties of anode materials for lithium-ion battery are reviewed. 综述了最近几年用氧化、复合技术改善锂离子电池负极材料性能的研究。
Cobalt and aluminum are mainly contained in the anode material of Li-ion battery. 而钴、铝元素主要存在于锂离子电池的正极材料钴锂膜中。
PPy/ SiO2 composites used as anode of lithium secondary battery were studied. 本文研究了以PPy/SiO2复合材料作锂二次电池正极的情况。
Study of PPy/ SiO_2 nanocomposite as anode for secondary lithium battery PPy/SiO2纳米复合材料作锂二次电池正极的研究
Theoretical calculation of fraction of carbon atoms on surface and edge for carbon anode of lithium ion battery 锂离子电池碳负极中边缘碳及表面碳原子含量的理论计算
Li B alloy is the most advanced anode materials for thermal battery. LiB合金是热电池最新一代的阳极材料。
The traditional technology for manufacturing cathode and anode for Li ion battery is to mix the cathode and anode active materials with conducting reagent and binder respectively, then stir the mixtures into slurry at high speed and spread it on Al foil and Cu foil. 锂离子蓄电池正、负极制造的传统工艺是将正、负极活性物质分别与导电剂和粘结剂混合,并高速搅拌成浆涂布在铝箔和铜箔上。
A new approach was proposed to modify the surface structure of natural graphite by use of polymer adsorption and thereby to improve the initial charge-discharge efficiency of natural graphite anode in Li-ion battery. 针对天然石墨阳极存在的首次充放电效率低这一应用问题,提出了采用聚合物表面修饰石墨的新方法。
Zn was introduced into the Al-In anode for Al-air battery as the additive of Al alloy and electrolyte and its effect on Al-In anode was researched. 研究了将锌分别作为铝合金添加元素及电解液添加剂引入铝空气电池用铝铟阳极中,锌对铝铟阳极的影响。
Preparation and Capacity Fading Mechanism of Tin Thin Film as Anode of Lithium-ion Battery 锂离子电池薄膜锡负极材料的制备及容量衰减机理研究
Tin thin film coated on Cu substrate as anode of lithium-ion battery was prepared by electroplating. 以电镀的方法在铜基底上沉积薄膜锡作为锂离子电池负极材料。
The lithium-based compound with rocking-chair character can take the place of lithium anode materials in storage battery. It not only incarnates the advantage of high working voltage, but also greatly overcomes security problem of lithium ion battery. Moreover, it can improve cycle life of battery. 用嵌锂化合物来代替锂离子蓄电池中的金属锂负极,这样不但体现了锂电池工作电压高的优点,而且在较大程度上解决了锂电池的安全性问题,同时又提高了电池的循环寿命。
The zinc electrode, as anode of the battery, is one of the most important factors affecting its storage life. 其中负极锌电极是影响其贮存寿命的重要因素之一。
In addition, the condition of lithium precipitated on the anode surface after battery overcharged was analyzed. The precipitation of lithium would affect the cycle performance of batteries. 此外,我们研究了电压过充后负极表面析锂的情况,发现析锉后对电池循环性能有较大的影响。
The achievements laid an important foundation for industrialization of natural graphite as the anode material of lithium-ion battery. 本课题的研究成果,为实现天然石墨作为锂离子电池负极材料产业化奠定了重要基础。
The development of aluminum battery and the activation-passivation mechanism of Al anode in aluminum-air battery were introduced in this paper. 本文简要介绍了铝电池的发展历程以及铝-空气用铝合金的活化机理和研究进展。
Its electrochemical performances have been evaluated by galvanostatic charge/ discharge method and cyclic voltammetry ( CV) using the carbon nitride as anode material of lithium-ion battery. 继而研究了石墨型C3N4作为锂离子电池负极材料的可行性,采用恒电流充放电技术和循环伏安(CV)法测试其电化学性能。
The electricity circulation function were measured by making the material as the anode of the battery. 将所得的材料制成正极,组装成电池,测试了其电循环性能。