Design of a photodiode based on NiO/ZnO heterojunction

Hakkoum, Hadjer (2022) Design of a photodiode based on NiO/ZnO heterojunction. Doctoral thesis, Université de mohamed kheider biskra.

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Abstract

The recent interest in applications of ultraviolet photodiodes based on Nickel Oxide/ Zinc Oxide (NiO/ZnO) heterojunction heightens the need for more developments. One of the greatest challenges was to indicate which factors control the performance of these devices. Therefore, this research is based on three studies. In the first study, we managed to get the effect of the source solution quantity on structural and optical characteristics of ZnO and NiO thin films grown by spray pyrolysis for the design of NiO/ ZnO photodiodes. We assumed that increasing the film thickness reduces the defects and results in less recombination through higher crystallinity which enhances the photodetection. In the second study, we fabricated a NiO/ZnO junction by spray pyrolysis with optimum conditions. We performed a simulation to clarify the effects of heterojunction behavior and interface trap on the performance of NiO/ZnO photodiodes. The origin of current has been attributed to the tunneling, thermionic emission in the interface and due interface traps SRH generation and recombination controlling the carrier transport at the heterojunction. As a third study, the radio frequency sputtering technique was used to deposit NiO and ZnO thin films to form NiO/ZnO heterojunction in oxygen flow absence conditions. We found that the NiO/ZnO heterojunction has a semi-transparency in the visible range which makes this heterojunction suitable for broadband photodetection applications. This study demonstrates that NiO/ZnO heterojunction could play an important role in many applications such as broadband photodetection (ultraviolet and visible ranges), partial transparent optoelectronic devices and solar cells. These studies imply that using the crystal structure as desired has always been the key to designing and targeting high-quality heterojunctions. These results have allowed us to identify key parameters useful for the optimization of NiO/ZnO photodiodes, as well as to give realistic estimates of the performances of such UV devices

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