Abstract
INTRODUCTION: Near-infrared (NIR) hyperthermia agents are promising in cancer photothermal therapy due to their deeper penetration ability and less side effects. Spherical gold nanoshell and graphene-based nanomaterials are two major NIR hyperthermia agents that have been reported for photothermal therapy of cancer. Herein, we constructed a two-dimensional graphene oxide-template gold nanosheet (GO@SiO(2)@AuNS) hybrid that could destruct cancer cells with efficient photothermal effect. METHODS: Graphene oxide was coated with a layer of mesoporous silica, which provided binding sites for gold seeds. Then, seed-growth method was utilized to grow a layer of gold nanosheet to form the GO@SiO(2)@AuNS hybrid, which possessed great biocompatibility and high photothermal conversion efficiency. RESULTS: With the irradiation of NIR laser (808 nm) with low power density (0.3 W/cm(2)), GO@SiO(2)@AuNS hybrid showed a photothermal conversion efficiency of 30%, leading to a temperature increase of 16.4 °C in water. Colorectal cancer cells (KM12C) were killed with the treatment of GO@SiO(2)@AuNS hybrid under NIR irradiation. CONCLUSION: The GO@SiO(2)@AuNS hybrid may expand the library of the 2D nanostructures based on gold for cancer photothermal therapy.