Refractive Index, Band Gap and Oscillator Parameters of ZnO: (PNaphtholbenzenin(α)) Flims

Authors

  • Fadhil A. Tuma Physics Department, College of Education for Pure Sciences, 1 of University Basrah, Basrah, Iraq
  • Ghufran M. Shabeeb Department of Material Sciences, Polymer Research Center, 2 University of Basra
  • Haider Abdulelah Department of Material Sciences, Polymer Research Center University of Basra

Keywords:

Zinc oxide, crystallite size, optical band gap

Abstract

A semiconductor ZnO with a broad band gap, cheap cost, and flexibility that can be employed in a wide range of technical and scientific applications. In order to investigate the optical quality of ZnO, the paper explains how to manufacture it utilizing a sol-gel procedure with ((P- Naphtholbenzein(α)) dye. ZnO films' optical and structural characteristics were examined. Scientists used X-ray diffraction to characterize the unique ZnO:dye (XRD). Optical and dispersion parameters were determined by measuring transmittance in the wavelength range (300-900nm). The optical band gap of ZnO thin films obtained via the sol–gel approach was (3.04 eV), while the optical band gap of ZnO:dye thin films was (2.95 eV).

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Published

2023-06-26

How to Cite

Fadhil A. Tuma, Ghufran M. Shabeeb, & Haider Abdulelah. (2023). Refractive Index, Band Gap and Oscillator Parameters of ZnO: (PNaphtholbenzenin(α)) Flims. Zeta Repository, 19, 131–140. Retrieved from https://zetarepo.com/index.php/zr/article/view/1842

Issue

Vol. 19 (2023): EJPCM

Section

Articles