Here　a　facile　hydrothermal　method　was　developed　to　prepare　heterogeneous　photocatalyst　constructed　by　decorating　nanorod-assembled　orbicular　WO3.0.5　H2O　on　the　surface　of　porous　carbon　nitride　nanosheets.　By　integrating　two　martials　with　synergetic　effect　according　to　their　bandgap　structure,　as-obtained　catalyst　exhibits　well-suppressed　recombination　of　the　photoexcited　carriers　by　formation　of　Z-scheme　bandgap　structure.　It,　together　with　the　increased　surface　areas,　contributes　to　the　significantly　improved　photo-catalytic　performance.　As　a　result,　the　heterogeneous　photocatalyst　reveals　a　hydrogen　generation　rate　of　3100　mu　mol.g(-1)h(-1)　under　visible　light　irradiation,　accounting　for　an　approximately　16　times　higher　than　that　of　pristine　graphite　carbon　nitride.　Accordingly,　as　proposed　strategy　provides　a　new　opportunity　to　explore　advanced　catalysts　with　superior　properties　for　renewable　energy　utilization.　(C)　2021　Elsevier　B.V.　All　rights　reserved.