English

Visualizing an adjustable WO3/p-GaN heterojunction

Applied Physics 2020-07-01 v1 Materials Science

Abstract

The p-n junctions based on typical semiconductors are the elementary units for the modern electronic devices and chip industry. While the rectification property of those p-n junction is usually fixed once the unit is fabricated. Here, we proposed an adjustable n-WO3/p-GaN heterojunction with controllable electronic properties. For the prepared n-WO3/p-GaN heterojunction, it is almost transparent and shows typical p-n junction rectification. While if gradually doping some hydrogen atoms into WO3 layer by a facile electron-proton synergistic route, the heterojunction can be turned dynamically from the typical p-n junction (n-WO3/p-GaN) to standard Schottky contact (HxWO3/p-GaN) step by step. More importantly, this evolution can be directly visualized by eyesight due to the pronounced electrochromic characteristic of WO3 layer. By connecting two HxWO3/p-GaN heterojunctions, the controllable bi-functional rectification can be achieved. In addition, the HxWO3/p-GaN heterojunction can recovered to the original p-n jucntion just by annealing at ambient, demonstrating the heterojunction is controllable and reusable. The current study will open up tremendous opportunities for dynamic electronic devices in the future.

Cite

@article{arxiv.2006.16570,
  title  = {Visualizing an adjustable WO3/p-GaN heterojunction},
  author = {Yuliang Chen and Changlong Hu and Guobin Zhang and Chongwen Zou},
  journal= {arXiv preprint arXiv:2006.16570},
  year   = {2020}
}

Comments

8 pages, 2 figures

R2 v1 2026-06-23T16:43:32.960Z