The Influence of Mechanical Milling on the Electrical Conductivity of LiFeSi_0.03P_0.97O₄/C Composite Materials

Abstract: LiFeSi0.03P0.97O4/C composite materials with variations in duration of milling are 4, 8, 12, and 16 h have been synthesized successfully by solid-state process. The iron stone from Tanah Laut Kalimantan used as source of ion Fe and Glucose used as material coating. The result of XRD have shown all of the samples have a olivine LiFePO4 phase except for milling 16 h. The largest electrical conductivity was 1.75x10-8 S/cm observed in sample of 16 h.

“…Iron oxides have been studied primarily as nanostructured and/or powder materials with the goal of improving the electrochemical performance of batteries. Additionally, we discovered that an iron-based battery with nanoparticles can be fabricated using natural resources. , The performance of the iron-based battery can still be improved by modifying and developing the structure, morphology, and possibly adding a dopant. Iron oxide thin films, on the other hand, also have been reported to be suitable as an anode material for thin film lithium-ion batteries, as schematically shown in Figure .…”

Crafting a Next-Generation Device Using Iron Oxide Thin Film: A Review

“…Iron oxides have been studied primarily as nanostructured and/or powder materials with the goal of improving the electrochemical performance of batteries. Additionally, we discovered that an iron-based battery with nanoparticles can be fabricated using natural resources. , The performance of the iron-based battery can still be improved by modifying and developing the structure, morphology, and possibly adding a dopant. Iron oxide thin films, on the other hand, also have been reported to be suitable as an anode material for thin film lithium-ion batteries, as schematically shown in Figure .…”

Crafting a Next-Generation Device Using Iron Oxide Thin Film: A Review