In this study, we fabricated anti-reflection structure on silicon by using anodic aluminum oxide nanostructure as an etching mask inspired by moth eye effect. At first, we employed FDTD simulation to design the mask which is a nano-channel array with the period of 200nm. Then, anodic porous alumina membrane was used as the etching mask on silicon surface. Anodic porous alumina is a self-aligned structure with a submicron scale and easily formed by the anodic oxidation of Al over a large area and at low cost. After that the silicon was etched by high density plasma with SF6 gas. Finally, the anti-reflection nano-hole array structure with 220nm period was formed. The experiment results showed a low reflectivity below 1% was achieved over a wide spectral bandwidth from 400 to 1000 nm when nano-cone over 500nm. The best reflectivity can reach to 0.58% at normal incidence. When the angle of incidence is 60 degree, the best reflectivity can reach to 3.01%. In addition, an antireflection coating of ZnO film was deposited on the nanostructure using atomic layer deposition process to reduce surface reflection. According to our simulation result, a 60-nm thickness of ZnO is the best antireflection design. As a result, the average reflectance of the nanostructure with a single layer of ZnO can be decreased from 2.54% to 0.83%. Finally, the efficiency of the solar cell can increase from 4.31% to 5.06% by using the antireflection structure.