Biology　systems　harvest　solar　energy　to　regulate　ions　and　molecules　precisely　across　cell　membrane　that　is　essential　to　maintain　their　life　sustainability.　Recently,　artificial　light-driven　directional　ion　transport　through　graphene　oxide　membranes　has　been　established,　where　the　membrane　converts　light　power　into　a　transmembrane　motive　force.　Herein,　we　report　a　silver　nanoparticles　decorated　graphene　oxide　membranes　for　enhanced　photo-driven　ionic　transport.　Asymmetric　light　stimulated　charge　carrier　dynamics,　such　as　advanced　light　absorption　efficiency,　extended　lifetime　and　efficient　separation　of　photo-excited　charge　carriers,　are　account　for　the　ion-driven　force　enhancement.　Based　on　metal　nanoparticles　decoration,　the　concept　of　the　guest-interactions　of　plasmon-enhanced　photo-driven　ion　transport　in　two-dimentional　layered　membranes　will　stimulate　broad　researches　in　sensing,　energy　storage　and　conversion　and　water　treatment.