Suppression of voltage decay through adjusting tap density of lithium-rich layered oxides for lithium ion battery
来源期刊:JOURNAL OF MATERIALS SCIENCE TECHNOLOG2020年第23期
论文作者:Muhammad Zubair Errui Wang Yinzhong Wang Boya Wang Lin Wang Yuan Liang Haijun Yu
摘 要:The voltage decay of lithium-rich layered oxides(LLOs) is still one of the key challenges for their application in commercial battery although these materials possess the advantages of high specific capacity and low cost. In this work, the relationship between voltage decay and tap density of LLOs has been focused.The voltage decay can be significantly suppressed with the increasing tap density as well as the homogenization of the primary or secondary particle size of agglomerated spherical LLOs. Experimental results have shown that an extreme small voltage decay of 0.98 m V cycle-1 can be obtained through adjusting the tap density of agglomerated spherical LLOs to 1.99 g cm-3, in which the size of primary and secondary particles are uniform. Our work offers a new insight towards the voltage decay and capacity fading of LLOs through precursor preparation process, promoting their application in the real battery in the future.
Muhammad Zubair,Errui Wang,Yinzhong Wang,Boya Wang,Lin Wang,Yuan Liang,Haijun Yu
College of Materials Science and Engineering,Key Laboratory of Advanced Functional Materials,Education Ministry of China,Beijing University of Technology
摘 要:The voltage decay of lithium-rich layered oxides(LLOs) is still one of the key challenges for their application in commercial battery although these materials possess the advantages of high specific capacity and low cost. In this work, the relationship between voltage decay and tap density of LLOs has been focused.The voltage decay can be significantly suppressed with the increasing tap density as well as the homogenization of the primary or secondary particle size of agglomerated spherical LLOs. Experimental results have shown that an extreme small voltage decay of 0.98 m V cycle-1 can be obtained through adjusting the tap density of agglomerated spherical LLOs to 1.99 g cm-3, in which the size of primary and secondary particles are uniform. Our work offers a new insight towards the voltage decay and capacity fading of LLOs through precursor preparation process, promoting their application in the real battery in the future.
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