Effects of oxygen partial pressure, deposition temperature, and annealing on the optical response of CdS:O thin films as studied by spectroscopic ellipsometry

Ex-situ spectroscopic ellipsometry measurements are made on radio frequency magnetron sputtered oxygenated cadmium sulfide (CdS:O) thin films. Films are deposited onto glass substrates at room temperature and at 270 °C with varying oxygen to total gas flow ratios in the sputtering ambient. Ellipsome...

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Bibliographic Details
Published in:Journal of applied physics 2016-07, Vol.120 (1)
Main Authors: Junda, Maxwell M., Grice, Corey R., Subedi, Indra, Yan, Yanfa, Podraza, Nikolas J.
Format: Article
Language:English
Subjects:
ABSORPTION
Absorptivity
ANNEALING
Applied physics
Band gap
Cadmium
Cadmium sulfide
CADMIUM SULFIDES
CADMIUM TELLURIDES
CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS
Computer simulation
CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY
Critical point
Crystal structure
Crystallinity
Degree of crystallinity
DEPOSITION
DEPOSITS
DIELECTRIC MATERIALS
ELLIPSOMETRY
Energy gap
EXTRAPOLATION
GAS FLOW
Glass substrates
Intermetallic compounds
MAGNETRONS
OXYGEN
PARTIAL PRESSURE
Photovoltaic cells
Pressure effects
RADIOWAVE RADIATION
SOLAR CELLS
Spectroellipsometry
SPUTTERING
SUBLIMATION
SUBSTRATES
Tellurides
TEMPERATURE RANGE 0273-0400 K
THIN FILMS
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Summary:Ex-situ spectroscopic ellipsometry measurements are made on radio frequency magnetron sputtered oxygenated cadmium sulfide (CdS:O) thin films. Films are deposited onto glass substrates at room temperature and at 270 °C with varying oxygen to total gas flow ratios in the sputtering ambient. Ellipsometric spectra from 0.74 to 5.89 eV are collected before and after annealing at 607 °C to simulate the thermal processes during close-space sublimation of overlying cadmium telluride in that solar cell configuration. Complex dielectric function (ε = ε 1 + iε 2) spectra are extracted for films as a function of oxygen gas flow ratio, deposition temperature, and post-deposition annealing using a parametric model accounting for critical point transitions and an Urbach tail for sub-band gap absorption. The results suggest an inverse relationship between degree of crystallinity and oxygen gas flow ratio, whereas annealing is shown to increase crystallinity in all samples. Direct band gap energies are determined from the parametric modeling of ε and linear extrapolations of the square of the absorption coefficient. As-deposited samples feature a range of band gap energies whereas annealing is shown to result in gap energies ranging only from 2.40 to 2.45 eV, which is close to typical band gaps for pure cadmium sulfide.
ISSN:0021-8979
1089-7550
DOI:10.1063/1.4955076