All-solid-state lithium secondary batteries with high capacity using black phosphorus negative electrode

Abstract

Black phosphorus was prepared from red phosphorus by using mixer mill and planetary ball-mill apparatuses. The composites with black phosphorus and acetylene black (AB) were also prepared by using the mixer mill apparatus. The mechanical milling of black phosphorus and AB brought about a decrease in size of secondary particles of the composites. The all-solid-state lithium cells with the composite and the Li 2S–P 2S 5 glass-ceramic electrolyte exhibited the first discharge capacity of 1962 mAh g −1 and the coulombic efficiency of 89% at the current density of 0.064 mA cm −2 (24 mA g −1). The all-solid-state cells worked at 3.8 mA cm −2 (1.47 A g −1) at 25 °C and showed the excellent cycle performance with a high capacity of over 500 mAh g −1 for 150 cycles. Black phosphorus is one of the most attractive negative electrodes with both high capacity and high-rate performance in all-solid-state lithium rechargeable batteries with sulfide electrolytes.