▎ 摘　　要

NOVELTY - Processing graphene comprises (i) placing the graphite block in a crusher and breaking into graphite particles; (ii) mixing potassium permanganate and concentrated sulfuric acid with the graphite particles to obtain graphite oxide sheet; (iii) placing the graphite oxide sheet into the reaction vessel to obtain graphene oxide; (iv) passing the graphene oxide into the hydrazine hydrate solution to obtain graphene; (v) drying the graphene in a vacuum drying oven, where the reaction kettle comprises a case (1), a feed pipe (2), an intake pipe (3), a finished delivery pipe (4), a microwave emitter (5) and a swing module (6). The feeding pipe is arranged at the top of the case. The intake pipe is arranged at the bottom of the case, and the inlet pipe can inject an inert gas into the casing or compressed air. The finished delivery pipe is disposed on the top of the case on one side of the feeding pipe. The inner wall of the tank is provided with a microwave emitter. USE - The method is useful for processing graphene. DETAILED DESCRIPTION - Processing graphene comprises (i) placing the graphite block in a crusher and breaking into graphite particles; (ii) mixing potassium permanganate and concentrated sulfuric acid with the graphite particles to obtain graphite oxide sheet; (iii) placing the graphite oxide sheet into the reaction vessel to obtain graphene oxide; (iv) passing the graphene oxide into the hydrazine hydrate solution to obtain graphene; (v) drying the graphene in a vacuum drying oven, where the reaction kettle comprises a case (1), a feed pipe (2), an intake pipe (3), a finished delivery pipe (4), a microwave emitter (5) and a swing module (6). The feeding pipe is arranged at the top of the case. The intake pipe is arranged at the bottom of the case, and the inlet pipe can inject an inert gas into the casing or compressed air. The finished delivery pipe is disposed on the top of the case on one side of the feeding pipe. The inner wall of the tank is provided with a microwave emitter. The swing module is disposed in a middle portion of the case, and the swing module is configured to place the oxidized graphite particles. The swing module comprises a crossbar, a slider, a push rod, a roller, a mounting block, a telescopic rod and a placement pot. The cross bar is fixedly mounted in the middle of the box body. A slider is slidably mounted on the bottom of two parallel crossbars. The slider is controlled to slide by a push rod mounted on an inner wall of the casing. A roller is arranged on the top of two parallel crossbars. A middle portion of the roller is provided with a mounting block. The bottom of the mounting block is connected to the slider by a spring. The top of the mounting block supports the placing vessel through a set of telescopic rods. The roller can roll on the crossbar, and the top of the two crossbars is provided with a set of grooves. A set of grooves form a zigzag shape, and a side of the groove is provided with a baffle, when one end of the roller falls into a groove and the roller after tilting, and the baffle can block this end of the roller. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic representation of the processing graphene flow diagram.