MXene two-dimensional materials have been widely used in energy storage, catalysis, sensing and other fields, Nb 2 C as a typical two-dimensional MXene material, its exploration in the field of optoelectronics is still in its infancy, especially Nb 2 C-based photodetectors are still to be developed. This paper demonstrates that two-dimensional films based on few-layer Nb 2 C have a photoelectric response in the wavelength range from visible to near-infrared. We have found that the light response performance can be easily adjusted by controlling the thickness of the spin-coated film, and that Nb 2 C photodetectors show great advantages in terms of wide bandwidth, polarization response, high switching ratio, etc. By adjusting the material concentration and sample thickness, the photocurrent can reach up to 330 nA, the switching ratio can reach 410, and the responsivity can reach 8.3 × 10 -4 A W -1 . In the polarization characteristic test, an extinction ratio of 7.6 can be obtained. By adjusting the content of that doped MoS 2 quantum dot, the dark current can reach 7.6 × 10 -13 A, and the switching ratio can reach 3 × 10 5 , which can be increased by 700 times. The above results show that the few-layer Nb 2 C nanosheets can be used as optoelectronic detectors in the visible to near-infrared bands, which further broadens the application prospects of two-dimensional MXene.