Metallic Li is a promising anode material for high energy density batteries but it suffers from poor sta-bility and formation of unsafe dendrites.Previous studies demonstrated that 3D metal foams are able to improve the stability of Li metal but the properties of these foams are inherently limited.Here we report a facile surface modification approach via magnetron sputtering of mixed oxides that effectively modulate the properties of Cu foams for supporting Li metal with remarkable stability.We discovered that hybrid Li anodes with Li metal thermally infused to aluminum-zinc oxides(AZO)coated Cu foams have significantly improved stability and reactivity compared with pristine Li foils and Li infused to un-modified Cu foams.Full cells assembled with a LiFePO4 cathode and a hybrid anode maintained low and stable charge-transfer resistance(≤50 Ω)during 500 cycles in carbonate electrolytes,and exhibited su-perior rate capability(～100 mAh g-1 at 20 C)along with better electrochemical reversibility and surface stability.The AZO modified Cu foams had superior mechanical strength and afforded the hybrid anodes with minimized volume change without the formation of dendrites during battery cycling.The rational construction of surface architecture to precisely control Li plating and stripping may have great implica-tions for the practical applications of Li metal batteries.