Three-dimensionally　ordered　macroporous　(3DOM)　monoclinic　InVO4　with　nanovoid-like　skeletons　and　high　surface　areas　(35-52　m(2)/g)　were　fabricated　using　the　citric　acid-,　tartaric　acid-　or　ascorbic　acid-assisted　polymethyl　methacrylate-templating　strategy.　Photocatalytic　activities　of　the　3DOM-structured　materials　were　evaluated　for　the　degradation　of　methylene　blue　(MB)　under　visible-light　illumination.　Compared　to　the　bulk　InVO4,　the　3DOM-structured　InVO4　showed　much　better　visible-light-driven　photocatalytic　performance　for　MB　degradation.　It　is　concluded　that　the　excellent　photocatalytic　activity　of　3DOM-structured　InVO4　were　associated　with　their　higher　surface　areas　and　surface　oxygen　vacancy　density　and　lower　bandgap　energy　as　well　as　the　better　3DOM　structure.　We　are　sure　that　the　3DOM-structured　materials　are　promising　photocatalysts　for　the　removal　of　organics　from　wastewater　under　visible-light　illumination.　(C)　2013　Elsevier　B.V.　All　rights　reserved.