Fabrication　of　anode　materials　for　lithium-ion　batteries　with　superior　electrochemical　performance　is　highly　desirable.　Herein,　we　design　zincoxide　and　manganese　oxide　composite　with　reduced　graphene　oxide　via　hydrothermal　method　followed　by　annealing.　The　capacities　fade　of　manganese-based　anode　is　improvedusing　graphene　network　and　ZnO　composite　as　a　result　the　unique　structure　delivered　a　highcycling　performance.ZnO-MnOare　homogenously　embedded　within　graphene　conducting　network　providing　electronic　pathways　and　mechanical　stress.　The　higher　electronic　conductivity　of　ZnO-MnO@rGO　cubes　alsoleads　to　enhanced　electrochemical　performance.　High　specific　charging　capacity　of　994　mA　h　g(-1)　is　achieved　at　current　rate　of　200　mA　g(-1).　The　electroderetained　high　reversible　charging　capacity　of　997　mA　h　g(-1)　after　300　cycles.This　ZnO-MnO@rGO　composite　material　could　facilitate　fabrication　of　unique　structure　and　conductive　network　for　advance　lithium　batteries.　(C)　2019　Published　by　Elsevier　B.V.