NASICON-type　NaTi2(PO4)(3)　(NTP)　with　stable　3D　framework　exhibits　great　application　prospect　as　anode　materials　for　aqueous　lithium　ion　battery　(ALIB).　However,　the　low　electrical　conductivity　of　NTP　adversely　affects　its　rate　and　cycling　performance.　Surface　coating　and　lattice　doping　are　considered　to　be　effective　means　to　improve　the　performance　of　the　material.　Herein,　carbon　coated　and　Fe-F　co-doped　NTP　anode　materials　were　synthesized　for　ALIBs.　It　is　found　that　the　LiMn2O4　parallel　to　NTP-Fe-0.1-F-0.1/C　full　cell　delivers　a　high　discharge　specific　capacity　of　112.8,　103.2　and　96.2　mAh　g(-1)　at　0.5,　5　and　10　C,　respectively,　in　the　voltage　range　of　0.5-1.9　V　when　Ni　foam　is　used　as　gasket　for　the　cell　assembly.　The　performances　of　the　cell　especially　the　cycling　lifetime　at　high　charge-discharge　rates　are　further　improved　using　electrochemically　stable　stainless　steel　as　gasket.　A　high　coulombic　efficiency　of　100%　and　a　low　capacity　decay　of　only　0.8%　at　5　C　and　14.9%　at　10　C　are　achieved　even　after　2000　cycles　of　charge-discharge　test.　This　is　the　most　stable　NTP-based　ALIBs　reported　in　the　literature.　The　outstanding　electrochemical　property　and　the　long　cycling　lifetime　of　the　NTP-Fe-0.1-F-0.1/C　material　is　due　to　the　enhanced　structural　stability　and　electron/Li+　ion　transfer　kinetics.　(C)　2021　Elsevier　B.V.　All　rights　reserved.