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High-performance quantum infrared cameras are substantially expensive and complicated in comparison to general visible light cameras. Producing a high-resolution infrared camera is especially difficult due to the lack of suitable photon absorption materials in the infrared spectrum and various challenges involved in design, manufacturing, and characterization. Graphene, a novel one atomic-layer-thick carbon material, is a promising building block for the next generation nanoelectronic and optoelectronic devices . Graphene exhibits remarkably high conductivity , high electron mobility , , and a unique band structure , , which allows it to operate as nano infrared detectors , .