Wafer based solar cell accounts for the production of a large part in photovoltaic industry due to its stability and high efficiency. Although the technology of wafer based solar cell has been well-developed for conventional structure, there are still numerous new challenges existing for the high efficiency solar cell. In this thesis, the fabrication process of n-type silicon based homojunction solar cell is demonstrated by using ion implantation to form the boron emitter and phosphorous back surface field. By using appropriate annealing condition, The implanted dopants and damage introduced by the implantation can be activated and repaired, respectively. For better efficiency, fundamental analysis is necessary.Using p+np+ and n+nn+ symmetrical structure to analyze characteristic of emitter and base in the thesis. Finally, There are surface planar solar cells we discuss before. But it’s not enough to make high efficient solar cell. For high efficient solar cell, surface texture is necessary. In order to increase short circuit current, we should increase light trapping in our solar cell. But it will increase the total surface of solar cells, it will increase the emitter saturation current density and leads to lower open circuit voltage.