Facile process for the fabrication of multi-layer graphene thin film (MLGF) is reported here. Multi-layer graphene dispersion prepared by liquid-phase exfoliation of graphite was sprayed on a glass substrate by spray pyrolysis method. The structural, optical and electrical properties of the deposited MLGF are investigated. The sheets of graphene are deposited uniformly on the substrate and distribution of small graphene sheets with size of 300–500 nm can be observed in SEM image. AFM and micro-Raman results ensured that the spray-coated graphene thin film is composed of multi-layer graphene sheets. Spray coated graphene thin film showed significant optical transparency of 57% in the visible region (400–550 nm). MLGF possessed the electrical conductivity in the order of 744 S/m with surface resistivity of 3.54 k Ω/sq. The prepared liquid-phase exfoliated graphene thin film showed superior photoelectric response. The results of this study provided a framework for fabricating an optimized MLGF using a spray pyrolysis route for optoelectronics devices.
Sucking spray type liquid dispenser does to ply piston by exclusive use cylinder, did so that dispenser may can do pumping, and control sucking and interception of dispenser by sucking piston and interception node in main cylinder interior and control coating emperor's the spray amount more minutely in main cylinder, various coating emperors of low viscosity so that fixed quantity spray is possible spray type liquid dispenser be. In this paper, spray angle and theoretically cover extent in actuality cover extent is difference, spray form, spray air, spray high, over lap extent according to use usage becomes different and actuality cover extent applies over lap 20[%], and succeed to reduce error of cover extent maximum theoretically with actuality cover extent and got near result in cover extent of 10[%] withins.