In this study, the photonic nanojets are created by micro-cuboid structures at different wavelengths of laser. The propagation directions of lightwave include penetrating and reflection modes. The materials of micro-cuboids are polydimethylsiloxane(PDMS) and SiO2. The cuboid structures are fabricated by semiconductor and replica molding processes. The research procedure of this study include theoretical calculation and experimental measurements. The variations of photonic nanojets are observed in different dimension of micro-cuboids and metallic shells. In theoretical method, the finite-difference time-domain method is used to simulate the intensity distribution of photonic nanojets in the different core-shell cuboids at different wavelengths. In experimental measurements, the high sensitivity optical microscope system are used to observe the actual image of photonic nanojets in different micro-cuboids. The parameters of photonic nanojets are calculated by computer program including focal length, Full Width at Half Maximum(FWHM), and decay length. The experimental data are compared with simulation results. The effect of photonic nanojets are created by core-shell micro-cuboids is better than dielectric micro-cuboids. The spot and intensity are more clear and concentration. The study results can help to develop the nano-scale optical microscope in the future.