Preliminary Study of LiCoPO4 cathode material synthesis for LiCoPO4/Graphite Cell

Energy Storage Technology and Applications Pub Date : 2022-06-27 DOI:10.20961/esta.v2i1.61250

A. P. Hutama, C. Yudha, Y. R. Azinuddin

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Abstract

Nowadays, the race towards a high-performance Li-ion batteries discovery for energy storage has become an interesting technological challenge. New or improved Li-ion battery cathodes have been developed relentlessly in this decade. LiCoPO4 (LCP) is a cathode material that allow a battery to operate at high voltage which resulted a high energy density battery. The presence of strong P-O bond adds a thermal stability feature to LIB cells. In this study, a LiCoPO4 material were prepared by precipitation of Co3(PO4)2 (CP) followed by high temperature Li insertion. H3PO4 were used as the phosphate source. The crystallization or precipitation of CP can only be achieved under mild pH condition, which can be controlled using sodium hydroxide. XRD, SEM and FTIR analysis were used to characterize the final product. The as-obtained LCP were applied as cathode material while graphite was used as the counter anode. The cell can deliver a charge-discharge capacity at a voltage of 2.0-4.95 V. This preliminary can be a groundwork toward the commercialization of LCP based Li-ion batteries for high duty application.

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LiCoPO4/石墨电池正极材料合成的初步研究

如今，开发高性能锂离子电池用于储能已经成为一项有趣的技术挑战。新的或改进的锂离子电池阴极在这十年中不断发展。LiCoPO4 (LCP)是一种阴极材料，可以使电池在高电压下工作，从而产生高能量密度电池。强P-O键的存在使锂离子电池具有热稳定性。本研究采用Co3(PO4)2 (CP)沉淀后高温插锂法制备LiCoPO4材料。采用H-3PO4作为磷酸盐源。CP的结晶或沉淀只能在温和的pH条件下实现，可以用氢氧化钠来控制。采用XRD、SEM、FTIR等方法对最终产物进行表征。得到的LCP作为正极材料，石墨作为反阳极。电池可以在2.0-4.95 V的电压下提供充放电容量。这一初步研究为高负荷LCP锂离子电池的商业化奠定了基础。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Energy Storage Technology and Applications

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