Novel Supercapacitor Electrode Derived from One Dimensional Cerium Hydrogen Phosphate (1D-Ce(HPO4)2.xH2O)

Abstract

In this manuscript, we are reporting for the first time one dimensional (1D) cerium hydrogen phosphate (Ce(HPO₄)₂.xH₂O) electrode material for supercapacitor application. In short, a simple hydrothermal technique was employed to prepare Ce(HPO₄)₂.xH₂O. The maximum surface area of 82 m² g^-1 was obtained from nitrogen sorption isotherm. SEM images revealed Ce(HPO₄)₂.xH₂O exhibited a nanorod-like structure along with particles and clusters. The maximum specific capacitance of 114 F g^-1 was achieved at 0.2 A g^-1 current density for Ce(HPO₄)/NF electrode material in a three-electrode configuration. Furthermore, the fabricated symmetric supercapacitor (SSC) based on Ce(HPO₄)₂.xH₂O//Ce(HPO₄)₂.xH₂O demonstrates reasonable specific energy (2.08 Wh kg^-1), moderate specific power (499.88 W kg^-1), and outstanding cyclic durability (retains 92.7% of its initial specific capacitance after 5000 GCD cycles).

Keywords: cerium hydrogen phosphate; nanorods; specific energy; specific power; stability.