As　a　cheap　and　stable　transition　metal　oxide,　the　tungsten　trioxide　(WO3)　has　received　extensive　attentions　due　to　superior　physical　and　chemical　properties　and　could　be　used　in　electronic　devices,　lithium-ion　batteries,　gas　sensors,　dye　sensitized　solar　cells,　catalysts.　In　this　study,　the　well-designed　1D　architecture　of　nanowires　and　nanorods　was　successfully　synthesized　via　a　simple　and　facile　solvethermal　method　with　no　template　or　additives.　It　was　found　that　both　solvent　type　and　concentration　of　W　raw　material　could　affect　the　size　and　morphology　of　WO3　significantly　in　a　regular　way.　Different　products　showed　distinct　photocatalytic　activities　during　the　processing　of　degradation　methylene　blue　under　visible　light.　And　finally　the　underlying　reasons　for　the　different　photocatalytic　activities　were　discussed.　©　2019　Trans　Tech　Publications,　Switzerland.