While all-solid-state batteries have built global consensus with regard to their impact in safety and energy density,their anode-less versions have attracted appreciable attention because of the possibility of further...While all-solid-state batteries have built global consensus with regard to their impact in safety and energy density,their anode-less versions have attracted appreciable attention because of the possibility of further lowering the cell volume and cost.This perspective article summarizes recent research trends in anode-less all-solid-state batteries(ALASSBs)based on different types of solid electrolytes and anticipates future directions these batteries may take.We particularly aim to motivate researchers in the field to challenge remaining issues in ALASSBs by employing advanced materials and cell designs.展开更多
基金support from the Swiss National Science Foundation(SNF)(Grant No.Sinergia CRSII5_202296)the National Research Foundation of Korea(NRF)(Grant No.NRF-2022M3J1A1054151)+1 种基金generous support from the Institute of Engineering Research(IOER)Research Institute of Advanced Materials(RIAM)at Seoul National University.
文摘While all-solid-state batteries have built global consensus with regard to their impact in safety and energy density,their anode-less versions have attracted appreciable attention because of the possibility of further lowering the cell volume and cost.This perspective article summarizes recent research trends in anode-less all-solid-state batteries(ALASSBs)based on different types of solid electrolytes and anticipates future directions these batteries may take.We particularly aim to motivate researchers in the field to challenge remaining issues in ALASSBs by employing advanced materials and cell designs.