On the high and low temperature performances of Na-ion battery materials: Hard carbon as a case study

Electrochemical perforrnance of hard carbon (HC) prepared from sugar pyrolysis was investigated against sodium anodes at temperatures ranging from -15 degrees C up to 75 degrees C. Carbon coating was performed on HC decreasing its surface area and allowing significant improvement in terms of the first cycle coulombic efficiency and thus, irreversible capacity loss. Electrochemical performances of HC at various temperatures pointed at the IR drop of the cell being determinant for achieving the highest reversible capacity (450 mAh/g at C/10, 75 degrees C) and rate capability (340 mAh/g at 2C, 75 degrees C) ever reported. Stable cycling was also achieved at -15 degrees C with reversible capacity of ca. 265 mAh/g. (C) 2015 Elsevier B.V. All rights reserved.