LITHIUM INTERCALATION INTO GRAPHITE: PREDICTING DIFFUSION COEFFICIENT AND EXCHANGE CURRENT FROM THE DISCHARGE CURVES -

机译：锂嵌入到石墨中：预测排出曲线的扩散系数和交换电流 -

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A simple theoretical model is presented to simulate the galvanostatic discharge behavior of the Ni-composite graphite electrode. The discharge profiles predicted by using a constant diffusion coefficient (CDC) and by a varied diffusion coefficient (VDC) are compared in this paper. The results show that the varied diffusion coefficient (VDC) model can be simplified to the constant diffusion coefficient (CDC) for discharge rates less than 2C for a 5 μm particle. Also, an approximate analytical solution is presented for VDC model, which is found to be valid for discharge rates up to 6C. Exchange current and diffusion coefficient for the lithium-diffusion are predicted.

机译：提出了一种简单的理论模型来模拟Ni复合石墨电极的镀锌电极排放行为。通过使用恒定扩散系数（CDC）和通过变化的扩散系数（VDC）预测的放电分布在本文中进行了比较。结果表明，可以简化变化的扩散系数（VDC）模型，用于恒定的扩散系数（CDC），用于为5μm颗粒小于2℃的放电速率。此外，提出了一种用于VDC型号的近似分析解决方案，该模型被发现有效地用于高达6C的放电速率。预测了锂散射的交换电流和扩散系数。

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《International Symposium on Electrochemistry of Carbon Materials》|2004年||共13页
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Venkat R. Subramanian; Ping Yu; Branko N. Popov; Ralph E. White;
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中图分类碳及其无机化合物;
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LITHIUM INTERCALATION INTO GRAPHITE: PREDICTING DIFFUSION COEFFICIENT AND EXCHANGE CURRENT FROM THE DISCHARGE CURVES -

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