In this study, we fabricated a nano device formed by plurality of artificial quantum dots and tunneled junctions, which served as a detection element of photodetector. In the experiments, the characteristic analysis of the photoelectric effect of optoelectronic devices, when it is play a main role in silicon quantum of the photodetector, which can transform an optic signal to an electric signal, and illuminate the light source of different wavelength, Experiment in the light examination, will aim at the detector part structure to make gauging the photoelectric effect characteristic. Silicon quantum dots play the main role of transform an optic signal to an electric signal by different wave length of illumination. The gauging results demonstrated, the device absorbed photo-energy then transfer the energy to high efficiency photoelectric current. Our device has stable and high sensitively, fast switches over the characteristic, and the device noise and dark current characteristic are all very low. Moreover, after passes through light of examination experiment the long time surveys, characteristic of its photoelectric effect cannot change. Under the different wave length (300 nm ~ 1000 nm) illumination, the obtained quantum efficiency and light responsiveness is extremely high. Therefore, in view of the gauging result, further analyzes in the part between the photon and the electron the main correlation, if namely discusses the semiconductor vs. quantum light detector the prime task principle to affect.