Effect of High Strength Clad Foil on Cycle Life of SiO Anode

机译：高强度复合箔对SiO阳极寿命的影响

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Electric vehicles with longer driving range requires higher energy density materials such as Silicon and Silicon monoxide (SiO) as anode material. They are known of volume expansion and shrinkage during cycles which leads deformation of Cu foil and deteriorates cycle life of lithium ion batteries. Increasing foil thickness is not desirable from energy density point of view. In such a case, anode foil needs strength to suppress deformation, as well as low resistance. In order to increase cycle life of SiO anode, a clad foil with high strength and low resistance was applied. Three foils are rolled together to make a clad foil. The foil consists of three layers with Cu/Ni alloy/Cu. Ni alloy is for high strength, and Cu is for low resistance. SiO is mixed with polyimide binder, then coated on the clad foil (12 micro m) and rolled Cu foil (16 micro m). Cycle life at 1000mA/(g-SiO) was evaluated using coin cell.

机译：续驶里程更长的电动汽车需要能量密度更高的材料，例如硅和一氧化硅（SiO）作为阳极材料。它们在循环期间的体积膨胀和收缩是已知的，这导致Cu箔变形并劣化锂离子电池的循环寿命。从能量密度的观点来看，增加箔厚度是不期望的。在这种情况下，阳极箔需要强度以抑制变形以及低电阻。为了增加SiO阳极的循环寿命，使用了具有高强度和低电阻的包覆箔。将三层箔卷在一起以制成覆箔。箔片由三层组成，分别为铜/镍合金/铜。 Ni合金用于高强度，而Cu用于低电阻。将SiO与聚酰亚胺粘合剂混合，然后涂覆在复合箔（12微米）和轧制的铜箔（16微米）上。使用纽扣电池评估在1000mA /（g-SiO）下的循环寿命。

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来源
《Lithium battery chemistry symposium 2018》|2018年|308-308|共1页
会议地点 Mainz(DE)
作者
Yasuto Nozawa; Yoshimitsu Oda; Ryouji Inoue; Kaoru Masuda;
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Hitachi Metals Europe GmbH, Immermannstrasse 14-1, Duesseldorf, D-40210 Germany;

Hitachi Metals Neomaterial, Ltd., 19-1, Minami-Suita 2-chome, Suita, Osaka, 564-0043 Japan;

Hitachi Metals Neomaterial, Ltd., 19-1, Minami-Suita 2-chome, Suita, Osaka, 564-0043 Japan;

Hitachi Metals, Ltd., 2-70, Konan 1-chome, Minato-ku, Tokyo, 108-8224 Japan;

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Effect of High Strength Clad Foil on Cycle Life of SiO Anode

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