▎ 摘　　要

NOVELTY - Producing an imino-based hydrogel motor involves adding graphene nanosheets to deionized water and dispersing ultrasonic bath conditions to obtain a uniform dispersion of graphene oxide dispersion. The emulsifier is added to the obtained oxidized graphene dispersion. The hydrogel monomer, crosslinking agent and initiator are added for ultrasonic oscillation to obtain oil-in-water emulsion of the water phase. The water-insoluble organic solvent as an oil phase is added to the aqueous phase of oil-in-water emulsion to obtain an oil-in-water emulsion. USE - Method for producing an imino-based hydrogel motor (claimed). ADVANTAGE - The method enables to produce an imino-based hydrogel motor without consuming extra fuel in the environment. DETAILED DESCRIPTION - Producing an imino-based hydrogel motor involves adding graphene nanosheets to deionized water and dispersing ultrasonic bath conditions to obtain a uniform dispersion of graphene oxide dispersion. The emulsifier is added to the obtained oxidized graphene dispersion. The hydrogel monomer, crosslinking agent and initiator are added for ultrasonic oscillation to obtain oil-in-water emulsion of the water phase. The water-insoluble organic solvent as an oil phase is added to the aqueous phase of oil-in-water emulsion to obtain an oil-in-water emulsion. The catalyst is added to oil-in-water emulsion and then placed in the mold to obtain the infrared laser driven graphene hydrogel motor. An INDEPENDENT CLAIM is included for a method for an infrared laser driven graphene-based hydrogel motor, which involves changing the infrared light irradiation position, and acceleration or deceleration of the motor is achieved by strengthening or attenuating the intensity of the infrared light.