Phase transition in oxygen-intercalated pseudocapacitor Pr2MgZrO6 electrode: A combined structural and conductivity analysis

Abstract

The phase transition behavior and charge storage mechanism of Pr2MgZrO6 (PMM), an oxygen-intercalated pseudocapacitor, were investigated through crystal structure analysis, Raman spectroscopy, ac conductivity spectroscopy, X ray photoelectron spectroscopy, and electrochemical spectroscopy. The crystal structure analysis and vibration studies revealed a phase transition in PMM, following the sequence 14 to 87 to 225. High temperature Raman spectroscopy demonstrated a significant feature of a monoclinic to tetragonal phase transformation in PMM. The ac conductivity spectroscopy exhibited a semiconductor to metal transition in PMM. X-ray photoelectron spectroscopy of the Mn 2p state confirmed the presence of oxygen vacancies in PMM at room temperature. Furthermore, the electrochemical performance of PMM as an electrode was evaluated. The PMM electrode displayed an intercalated pseudocapacitive nature, exhibiting a maximum possible specific capacitance of 257.57 F. The charge storage process of the PMM electrode was thoroughly reviewed and discussed, shedding light on the underlying mechanisms.