The　coadsorbed　structures　of　Na　and　NO　on　perfect　TiO2(110)　surface　were　optimized　and　the　DOS　of　the　stable　model　of　Na　adsorption　was　performed.　based　on　DFT/B3LYP　method.　The　optimization　result　indicates　that　the　Na　atom　prefer　to　bind　on　the　＇adjacent＇　site　and　the　NO　adsorbs　on　Na/TiO2(110)　by　its　O　atom　vertically　located　at　Ti(5f).　The　Na　adsorption　on　TiO2(110)　perfect　surface　leads　to　produce　a　new　surface　state　which　is　similar　to　that　of　TiO2(110)　oxygen　defect　surface,　but　the　components　and　active　positions　of　both　the　surface　states　are　different.　The　results　are　in　good　agreement　with　the　experiments.　(C)　2004　Elsevier　B.V.　All　rights　reserved.