(450b) Rechargeable Aqueous Zinc-Ion Batteries and Supercapacitors

In order for batteries to make real and essential contributions to sustainability, it is highly desired to develop next-generation alternative battery technologies to LIBs with much lower cost and higher reliability. Aqueous batteries and supercapacitors have garnered tremendous research interest due to high safety. Among candidates, zinc-ion based energy devices show great promise due to the high theoretical capacity of Zn metal (820 mAh g−1), proper potential (−0.76 V vs. standard hydrogen electrode), water compatibility, and high safety of Zn metal. Despite the advantages, Zn-ion based energy storage devices are faced with issues from dendritic growth and low Coulombic efficiency in the Zn anode, fast capacity decay at the cathode, and unsatisfactory performance at extreme conditions. In this talk, we utilize electrode and electrolyte engineering to develop rechargeable low-cost Zn-ion batteries and supercapacitors with excellence electrochemical performance not only suitable for large-scale energy storage but also with potential for electric vehicle applications. In addition, we also try to realize recycling and upcycling of batteries, particularly ZIBs and LIBs, to create close loop of essential materials towards circular economy. Research focus has been concentrated on the recycling of LIBs electrode (particularly cathode) by regenerating or upgrading the electrode materials. Moreover, upcycling primary batteries into rechargeable batteries has also been studied.