Photothermal effect on the photoconduction properties of one-dimensional carbyne nanostructures

A theoretical analysis on the influence of photothermal effects on the photoconduction of one-dimensional (1D) carbyne nanostructures has been explored in this paper. It is found that the size dependence of photoconduction is a great benefit from the change of band structure and optical absorption, while the influence of photothermal effect on the photoconduction is mainly induced by the grain boundary scattering and transport properties. Moreover, the photoconduction increases as the incident power enhances with a P-0(gamma) dependence and gamma is not only related to the illumination intensity but also modulated by the dimensions. Our predictions are consistent with the available evidence, which indicates that our model is crucial for the understanding of the physical mechanism on the photothermal effect of 1D carbyne nanostructures and for their potential applications in nanotechnologies.