Investigation on 3-dimensional carbon foams/LiFePO4 composites as function of the annealing time under inert atmosphere

Abstract

The morphological and electrochemical investigation of 3-dimensional (3D) carbon foams coated with olivine structured lithium iron phosphate as function of the annealing time under nitrogen atmosphere is reported. The LiFePO4 as cathode material for lithium ion batteries was prepared by a Pechini-assisted sol–gel process. The coating has been successfully performed on commercially available 3D-carbon foams by soaking in aqueous solution containing lithium, iron salts and phosphates at 70°C for 2–4h. After drying-out, the composites were annealed at 600°C for different times ranging from 0.4 to 10h under nitrogen. The formation of the olivine-like structured LiFePO4 was confirmed by X-ray diffraction analysis performed on the powder prepared under similar conditions. The surface investigation of the prepared composites showed the formation of a homogeneous coating by LiFePO4 on the foams. The cyclic voltammetry curves of the composites show an enhancement of electrode reaction reversibility by increasing the annealing time. The electrochemical measurements on the composites showed good performances delivering a discharge specific capacity of 85mAhg−1 at a discharging rate of C/25 at room temperature after annealing for 0.4h and 105mAhg−1 after annealing for 5h.