A WSi2 /Si multilayer, with 300 bi-layers and a 2.18-nm d-spacing, is designed for X-ray monochroma-tor application. The multilayer is deposited using direct current magnetron sputtering technology. The reflectivity of the 1st-order Bragg peak measured at E = 8.05 keV is 38%, and the angular resolution (Δθ/θ) is less than 1.0%. Fitting results of the reflectivity curve indicate a layer thickness drift of 1.6%, mainly accounting for the broadening of the Bragg peaks. The layer morphology is further characterized by transmission electron microscopy, and a well-ordered multilayer structure with sharp interfaces is observed from the substrate to the surface. The material combination of WSi2 /Si is a promising candidate for the fabrication of a high-resolution multilayer monochromator in the hard X-ray region. A WSi2 / Si multilayer with 300 bi-layers and a 2.18-nm d-spacing, is designed for X-ray monochroma- tor application. The multilayer is deposited using direct current magnetron sputtering technology. The reflectivity of the 1st-order Bragg The peak measured at E = 8.05 keV is 38%, and the angular resolution (Δθ / θ) is less than 1.0%. Fitting results of the reflectivity curve indicate a layer thickness drift of 1.6%, mainly accounting for the broadening of the Bragg peaks The layer morphology is further characterized by transmission electron microscopy, and a well-ordered multilayer structure with sharp interfaces is observed from the substrate to the surface. The material combination of WSi2 / Si is a promising candidate for the fabrication of a high-resolution multilayer monochromator in the hard X-ray region.