Lithium Manganese Sulfates as a New Class of Supercapattery Materials at Elevated Temperatures

Abstract: To make supercapattery devices feasible, there is an urgent need to find electrode materials that exhibit a hybrid mechanism of energy storage. Herein, we provide a first report on the capability of lithium manganese sulfates to be used as supercapattery materials at elevated temperatures. Two compositions are studied: monoclinic Li2Mn(SO4)2 and orthorhombic Li2Mn2(SO4)3, which are prepared by a freeze-drying method followed by heat treatment at 500 °C. The electrochemical performance of sulfate electrodes is … Show more

“…The performance of a HSC device is mainly determined by the positive electrode materials [ 10 ]. In recent years, transition metal oxides/sulfides/hydroxides [ 34 ] have been considered as promising electrode materials for HSCs since they can provide a variety of oxidation states for fast surface redox reactions.…”

Electrode Materials, Structural Design, and Storage Mechanisms in Hybrid Supercapacitors

“…The performance of a HSC device is mainly determined by the positive electrode materials [ 10 ]. In recent years, transition metal oxides/sulfides/hydroxides [ 34 ] have been considered as promising electrode materials for HSCs since they can provide a variety of oxidation states for fast surface redox reactions.…”

Electrode Materials, Structural Design, and Storage Mechanisms in Hybrid Supercapacitors