下面两个文献,讲述了空心球的缺点,建议引用
Yu, F., J. Zhang, et al. (2010). "Porous micro-spherical aggregates of LiFePO4/C nanocomposites: A novel and simple template-free concept and synthesis via sol-gel-spray drying method." Journal of Power Sources 195(19): 6873-6878.
Yu, F., J. J. Zhang, et al. (2009). "Up-scalable synthesis, structure and charge storage properties of porous microspheres of LiFePO4@C nanocomposites." Journal of Materials Chemistry 19(48): 9121-9125.
此外,空心球的优点,你可以参照
Lim, S., C. S. Yoon, et al. (2008). "Synthesis of Nanowire and Hollow LiFePO4 Cathodes for High-Performance Lithium Batteries." Chemistry of Materials 20(14): 4560-4564 ,
自己顶一下!
我也正打算做中空材料。学习一下
下面两个文献,讲述了空心球的缺点,建议引用
Yu, F., J. Zhang, et al. (2010). "Porous micro-spherical aggregates of LiFePO4/C nanocomposites: A novel and simple template-free concept and synthesis via sol-gel-spray drying method." Journal of Power Sources 195(19): 6873-6878.
Yu, F., J. J. Zhang, et al. (2009). "Up-scalable synthesis, structure and charge storage properties of porous microspheres of LiFePO4@C nanocomposites." Journal of Materials Chemistry 19(48): 9121-9125.
此外,空心球的优点,你可以参照
Lim, S., C. S. Yoon, et al. (2008). "Synthesis of Nanowire and Hollow LiFePO4 Cathodes for High-Performance Lithium Batteries." Chemistry of Materials 20(14): 4560-4564
,
中空材料确实又很多优点
空心球耗费体积是必然的,但是作为写文章的话可以变通一下:如果容量的增加幅度远远大于体积的增加幅度,那么体积容量还是增加的
能不能给介绍几种简单的,易操作的方法,十分感谢
O(∩_∩)O哈哈~
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