Abstract
Nano-CuCo 2O 4 is synthesized by the low-temperature (400 °C) and cost-effective urea combustion method. X-ray diffraction (XRD), high resolution transmission electron microscopy (HR-TEM) and selected area electron diffraction (SAED) studies establish that the compound possesses a spinel structure and nano-particle morphology (particle size (10–20 nm)). A slight amount of CuO is found as an impurity. Galvanostatic cycling of CuCo 2O 4 at 60 mA g −1 in the voltage range 0.005–3.0 V versus Li metal exhibits reversible cycling performance between 2 and 50 cycles with a small capacity fading of 2 mAh g −1 per cycle. Good rate capability is also found in the range 0.04–0.94 C. Typical discharge and charge capacity values at the 20th cycle are 755(±10) mAh g −1 (∼6.9 mol of Li per mole of CuCo 2O 4) and 745(±10) mAh g −1 (∼6.8 mol of Li), respectively at a current of 60 mA g −1. The average discharge and charge potentials are ∼1.2 and ∼2.1 V, respectively. The underlying reaction mechanism is the redox reaction: Co ↔ CoO ↔ Co 3O 4 and Cu ↔ CuO aided by Li 2O, after initial reaction with Li. The galvanostatic cycling studies are complemented by cyclic voltammetry (CV), ex situ TEM and SAED. The Li-cycling behaviour of nano-CuCo 2O 4 compares well with that of iso-structural nano-Co 3O 4 as reported in the literature.
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