International Journal of Smart and Nano Materials (Apr 2022)

Influence of thermal treatment on electronic properties of inkjet-printed zinc oxide semiconductor

  • Van-Thai Tran,
  • Yuefan Wei,
  • Hejun Du

DOI
https://doi.org/10.1080/19475411.2022.2084172
Journal volume & issue
Vol. 13, no. 2
pp. 330 – 345

Abstract

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ABSTRACTAdditive manufacturing of electronic devices using inkjet printing provides a potential alternative approach in substitution for conventional electronic fabrication processes. However, the complex nature of inkjet printing involves the liquid deposition and film formation from the vaporization of solvent, which makes it different from film created by conventional deposition methods. Inkjet printing of zinc oxide (ZnO), which is a widely utilized semiconductor, produces polycrystalline film composed of nano-size grains, which could significantly influence the properties of printed film. In this study, low-temperature annealing was employed to treat inkjet-printed ZnO for UV photodetection application, and its influence on electrical properties was studied. Band bending was characterized using the Mott-Schottky plot which examines the charge distribution of the films. It is found that the annealing of inkjet-printed polycrystalline ZnO film has improved its electrical properties, which could be attributed to the reduction of band bending due to the merging of grains. The treatment also helps to reduce impurities of the film, such as zinc hydroxide complexes, which are common for solution-derived films. Hence, the study could pay the way for the improvement of electrical properties of inkjet-printed functional materials.

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