Effect of the substrate temperature on the physical properties of sprayed-CdS films by using an automatized perfume atomizer

G. Ojeda-Barrero, A. I. Oliva-Avilés, A. I. Oliva, R. D. Maldonado, M. Acosta, G. M. Alonzo-Medina

Research output: Contribution to journalArticlepeer-review

20 Scopus citations

Abstract

Cadmium sulfide (CdS) thin films were deposited onto glass substrates at different temperatures by the spray pyrolysis technique. A home-made experimental setup with an automatized perfume atomizer was implemented for the spray pyrolysis deposition. The temperature of the substrates was varied from 300 °C to 500 °C prior to the CdS deposition. The automatization and precise control of the spraying process produce CdS thin films with stable and controlled physical properties. The CdS stoichiometric ratio [S]/[Cd] and the bandgap energy were independent of the temperature of the substrate while the surface roughness decreased with increased temperature. The optical transmittance of the CdS films increased with increased substrate temperature, reaching values above 70% for wavelengths > 500 nm. A hexagonal crystalline structure was observed for the CdS films for all the substrate temperatures, however, the crystalline orientation of the CdS was dependent on the substrate temperature. Hall Effect measurements in Van der Pauw configuration confirmed low electrical resistivity values (~ 10−1 Ω-cm) and negative Hall coefficients (i.e. n-type) for the semiconducting CdS films. From the presented results, the samples deposited at 500 °C showed most adequate morphological, optical, electrical and structural conditions for potential implementation in photovoltaic applications. A good control and understanding of the physical properties of semiconducting thin films grown by low-cost and scalable techniques, such as the spray pyrolysis, represents an important step towards the development of nanostructures with high functionality.

Original languageEnglish
Pages (from-to)7-13
Number of pages7
JournalMaterials Science in Semiconductor Processing
Volume79
DOIs
StatePublished - 1 Jun 2018

Keywords

  • Bandgap energy
  • Cadmium sulfide
  • Spray pyrolysis
  • Substrate temperature

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