In order to improve air quality and create a low-carbon sustainable transportation environment, the government proactively accelerates bus fleet electrification in recent years. However, due to the high price of electric buses along with their insufficient recharging range, the pace of bus electrification policy is rather sluggish. Therefore, how to encourage bus companies to electrify their bus fleets by providing effective and reasonable subsidy is essential. Based on this, this study proposes a Bi-level mathematic programming model for determining the optimal government subsidizing strategy towards maximal CO_2 reduction subject to the electric buses purchase and deployment decisions of bus companies. Due to the complexity of the proposed model, genetic algorithms (GAs) are used to solve the model approximately. The results show that on-route recharging buses are favored for the bus routes with higher frequency and short route. However, for the subsidizing strategies with no subsidy for diesel buses, electric buses become more economically advantageous than diesel buses. Moreover, if the price of electric buses is lower and recharging range becomes longer, then economical advantage of electric buses is even more obvious.