Solar selective absorber (SSA) is a solar energy conversion device normally fabricated using painting or vapor-deposition methods on a flat substrate. The energy conversion efficiency of the flat surface can be reduced as the incident angle increased. To solve this problem, microstructures are claimed including wide-angle antireflection. Thus, the energy conversion efficiency of the SSA with micro-structures was studied for wide-angle incident lights. Based on the self-assembly of Polystyrene(PS) spheres and the sol-gel coating of TiO2, the TiO2 microstructure array of hexagonal close packing(HCP) and bowl-like holes were achieved. The hole size was 387 nm in diameter and 117.8 nm in height on the surface of BK-7 substrate. Then a multi-layered SSA was deposited on the microstructure by E-gun evaporator. The SSA consist of metals and dielectrics as follows: a thin Ag layer was applied as IR reflector to reduce the thermal emission of substrate; Ti and TiO2 composed a Dielectric-Metal-Dielectric (D-M-D) stack to broaden the anti-reflection band of visible spectrum; and SiO2 was coated at last as an anti-reflection and anti-scratch layer. The SSA came to be a stack of Ag/ TiO2/ Ti/ TiO2/ SiO2 on the surface of microstructure. The average absorptance(α) between 400nm ~ 1000nm of the micro-structured SSA is successfully improved for the incident angle between 8°~75° comparing to that of flat ones. The average absorptance increases 6.5% for the 75° incident angle and the average conversion efficiency (α/ε) increases 0.37% for the incident angle between 8°~75°.