In this study, atmospheric pressure microplasma synthesis was used to improve the problem of low loading of silver nanoparticles synthesized by chemical methods on the pores, and to use plasma to form a high concentration of active free radicals to help reduce silver on MZNs that also have free radicals. nanoparticles, and promoted the graphitization of organic gametes, and synthesized silver nanoparticles-graphene oxide-zeolite composites (Ag-GO@MZNs). Compared with the chemical method used in the past, the loading amount of silver has been significantly increased by more than 50 times (0.550 wt% to 29.20 wt%), and the detection concentration of drug sensing is lower than 100 times (25000 ppm to 250 ppm). The microplasma method has the advantage of simple synthesis, eliminating the need to first use chemical vapor deposition in the laboratory to crack ethylene at high temperature (825°С) in an argon environment to generate graphene oxide, and then use a reducing agent to synthesize silver nanoparticles , the plasma method simultaneously grows graphene oxide-coated silver nanoparticles in one step. At present, it has been successfully applied to the detection of the main drug components in coffee pods, and mephedrone can be measured at 10 ppm. In the future, it will actively invest in the combination of automated technology to separate drugs of abuse in urine and perform SERS detection as the first on-site drug detection application.