High-performance α-Ga <sub>2</sub> O <sub>3</sub> /CdS quantum dots PEC photodetector based on the pyro-phototronic effect for optical communication
Chenyang Tao, Shujie Jiao, Junjie He, Shiyong Gao, Dongbo Wang, Jinzhong Wang, Liancheng Zhao
Abstract
The photoelectrochemical (PEC) self-powered photodetector fabricated from α-Ga<sub>2</sub>O<sub>3</sub> was limited by its bandgap to only absorbing light within the solar-blind ultraviolet (UV) range, and also exhibited relatively slow response characteristics. The pyro-phototronic effect (PPE) was demonstrated to play a crucial role in enhancing detector performance. In this study, an α-Ga<sub>2</sub>O<sub>3</sub> nanorods/CdS quantum dots heterojunction PEC photodetector was successfully prepared through low-cost hydrothermal method and chemical bath deposition (CBD). Under the influence of the pyro-phototronic effect, a broadband response ranging from 220 nm (UV) to 700 nm (visible) was constructed. At the solar-blind UV wavelength of 254 nm, the photodetector has reached the optimal responsivity(R) and specific detectivity(D<sup>*</sup>) of 0.99 mA/W and 3.62×10<sup>9</sup> Jones, and the response times of this photodetector were promoted to 30 ms(rise) and 24 ms(fall). Furthermore, at the visible wavelength of 450 nm, the photodetector exhibited optimal R and D<sup>*</sup> values of 1.48 mA/W and 6.76×10<sup>9</sup> Jones, respectively. Based on the pyro-phototronic effect, three logic gate operations—"AND," "OR," and "NOT"—were successfully implemented, providing valuable insights for the application of PEC detectors in optical communication systems.