화학공학소재연구정보센터
Journal of Power Sources, Vol.431, 25-30, 2019
3D ant-nest network of alpha-Fe2O3 on stainless steel for all-in-one anode for Li-ion battery
Ant-nest nanostructured alpha-Fe2O3 films with a thickness of 10 mu rn are anodically grown on stainless steel without any binder, and the resulting material functioned as a current collector in the negative electrode of Li-ion batteries. Phase of Fe2O3 in the structure is the key factor determining the battery performance for a high capacity and cyclability. For example, single anodization allows Fe to be dissolved faster than other components such as Cr, resulting in a high Cr ratio in the stainless steel, which deteriorates the retention of the battery capacity during cycling. On the other hand, the Fe-Cr-Ni ratio is not significantly changed if a proper pretreatment for activation, which is able to dissolve all components with a similar dissolution rate in the subsequent anodization step, is performed. The anodic ant-nest nanostructures play a vital role in not only the pathway of Li ions but also releasing the stress of volume expansion during Li insertion/extraction. The optimized electrode delivers a high reversible capacity of 737 mu Ah cm(-2) (737 mAh cm(-3) or 1157 mu Ah g(-1)) at a current density of 650 mu A cm(-2) (1 C-rate) and sustains up to 500 cycles with only 0.13% capacity fading per cycle.