Many industries including biotechnology, food-processing, and medical-care must rely on the sterilization method to prevent the contamination of microorganisms. Conventional sterilization techniques have some disadvantages such as limited use on heat-sensitive materials and time-consuming process of heating methods, residual toxicity and environmental pollution caused by the application of biocides, and potential radiation hazards of irradiation sterilizations. In recent years, many researchers are devoted to develop novel disinfection techniques as an alternative to the traditional methods. One of the rapidly developing methods is low-temperature plasma sterilization. In this article, a review of two types of popularly studied nonthermal atmospheric plasma generation system is presented. In addition to the plasma generation method, there are many factors including plasma device operation conditions (e.g. plasma-to-surface distance, feeding gas, flow rate etc.) and the characteristics of microorganisms (e.g. vegetative/spore cell, growth phase, cell loading density etc.) that will affect the disinfection efficacy of a given plasma system.