Design of Layer Structure Metal Oxide Material with Dual-Ion Defects for High-Performance Aqueous Zn Ion Batteries

Abstract: Layer structure metal oxides are promising energy storage materials for rechargeable batteries. However, they are still hindered by insufficient ion storage sites and sluggish ion diffusion kinetics during ion insertion/extraction, leading to unsatisfactory battery performance. Herein, we have successfully designed layer structure metal oxides with regulated dual-ion defects via the ion exchange and annealing processes. As for demonstration, a K iv TO ev @Ti anode with dual-ion defects by incorporating with th… Show more

“…The Zn metal anode delivers low potential (−0.76 V vs SHE), high capacity (820 mAh g –1 ) and excellent water compatibility. − Cathode materials are the key components that determine the battery performance. Currently the proposed cathode materials for zinc batteries include manganese oxide, − vanadium oxide, − polyanion compounds, − and organic compounds etc. − Among them, polyanion materials exhibit high voltage due to inductive effect of polyanion XO 4 (X = P, S, W, etc. ), where the strong polarization of electrons on O toward X decreases the covalent character of metal–oxygen bonds and increases the redox potential of transition metals .…”

In Situ Generation of Protective Layer in Aqueous Zinc Batteries to Stabilize the Voltage of Li₃V₂(PO₄)₃ Cathode

“…The Zn metal anode delivers low potential (−0.76 V vs SHE), high capacity (820 mAh g –1 ) and excellent water compatibility. − Cathode materials are the key components that determine the battery performance. Currently the proposed cathode materials for zinc batteries include manganese oxide, − vanadium oxide, − polyanion compounds, − and organic compounds etc. − Among them, polyanion materials exhibit high voltage due to inductive effect of polyanion XO 4 (X = P, S, W, etc. ), where the strong polarization of electrons on O toward X decreases the covalent character of metal–oxygen bonds and increases the redox potential of transition metals .…”

In Situ Generation of Protective Layer in Aqueous Zinc Batteries to Stabilize the Voltage of Li₃V₂(PO₄)₃ Cathode

Strategies for improving cathode electrolyte interphase in high-performance dual-ion batteries