Constructing ultrafine lithiophilic layer on MXene paper by sputtering for stable and flexible 3D lithium metal anode

Lithium metal is the most attractive and promising anode for next-generation high energy batteries. However, uncontrollable dendrite growth of lithium remains a detrimental safety challenge. To tackle this problem, a 3D flexible [email protected] host is designed by depositing an ultra-fine and robust Au layer on MXene paper via ion-sputtering. The Au layer acts as lithiophilic nuclear agent to ensure homogeneous lithium deposition and suppress the lithium dendrites growth. The as-prepared flexible 3D [email protected]@Li anode shows significantly enhanced performance. Full lithium metal cell with LFP cathode delivers high capacity retention of 98.47% even after 200 cycles with good rate capability. These results may be useful for other metallic battery system and has potential applications in sensors, super-capacitor and catalyst etc.