Structural, electrical and optical properties of ZnS films deposited by close-spaced evaporation

Abstract ZnS films have been deposited on glass substrates by close-spaced evaporation (CSE) technique. The films were grown at different temperatures in the range, 200–350 °C. The layers have been characterized with X-ray diffractometer (XRD), atomic force microscope (AFM), energy dispersive analysis of X-rays (EDAX) and optical spectrophotometer to evaluate the quality of the layers for photovoltaic applications. The studies showed that the optimum substrate temperature for the growth of ZnS layers was 300 °C. The films grown at these temperatures exhibited cubic structure with nearly stoichiometric composition. The AFM data revealed that the films had nano-sized grains with a grain size of ∼40 nm. The optical studies exhibited direct allowed transition with an energy band gap of 3.61 eV. The other structural and optical parameters such as lattice stress, dislocation density, refractive index and extinction coefficient were also evaluated. The temperature-dependent conductivity measured in the range, 303–523 K showed a change in the conduction mechanism at 120 °C. The activation energy values evaluated using the temperature dependence of electrical conductivity are 7 and 29 meV at low and high temperature regions, respectively.

[1]  E. Burstein Anomalous Optical Absorption Limit in InSb , 1954 .

[2]  Nevill Mott,et al.  Conduction in glasses containing transition metal ions , 1968 .

[3]  P. Prathap,et al.  Close-spaced evaporated ZnSe films: Preparation and characterization , 2005 .

[4]  B. Warren,et al.  X-Ray Diffraction , 2014 .

[5]  Huey-Liang Hwang,et al.  Zinc sulfide thin films deposited by RF reactive sputtering for photovoltaic applications , 2003 .

[6]  Rommel Noufi,et al.  Properties of 19.2% efficiency ZnO/CdS/CuInGaSe2 thin‐film solar cells , 2003 .

[7]  M. S. Skolnick,et al.  Optical properties of undoped organometallic grown ZnSe and ZnS , 1982 .

[8]  M. Ichimura,et al.  Photoelectrical properties of ZnS thin films deposited from aqueous solution using pulsed electrochemical deposition , 2005 .

[9]  A. Ennaoui,et al.  Current transport in ZnO/ZnS/Cu(In,Ga)(S,Se) 2 solar cell , 2003 .

[10]  J. Bubendorff,et al.  Microstructure and cathodoluminescence study of sprayed Al and Sn doped ZnS thin films , 2004 .

[11]  M. Ritala,et al.  AFM studies on ZnS thin films grown by atomic layer epitaxy , 1997 .

[12]  S. Chaudhuri,et al.  Synthesis of ZnSxSe1-x (0 < x < 1) nanocrystalline thin films by high-pressure sputtering , 2001 .

[13]  Boris I Shklovskii,et al.  Coulomb gap and low temperature conductivity of disordered systems , 1975 .

[14]  J. Bernède,et al.  Structure, composition and optical properties of ZnS thin films prepared by spray pyrolysis , 2001 .

[15]  K. Murali,et al.  The effect of the pH value on the growth and properties of chemical-bath-deposited ZnS thin films , 2005 .

[16]  C. H. Bhosale,et al.  A comparative study of structural, compositional, thermal and optical properties of non stoichiometric (Zn, Fe)S chalcogenide pellets and thin films , 2004 .

[17]  Baoyi Wang,et al.  The structure and optical properties of the nanocrystalline ZnS films prepared by sulfurizing the as-deposited ZnO films , 2005 .

[18]  J. Vidal,et al.  Influence of magnetic field and type of substrate on the growth of ZnS films by chemical bath , 2002 .

[19]  Anthony E. Ennos,et al.  Stresses developed in optical film coatings. , 1966, Applied optics.

[20]  R. Swanepoel Determination of the thickness and optical constants of amorphous silicon , 1983 .

[21]  M. Muhamad,et al.  Optical characteristics of ZnSxSe1−x thin films prepared by electron beam evaporation , 2005 .

[22]  G. Gordillo,et al.  Structural characterization of thin films based on II-VI ternary compounds deposited by evaporation , 2005 .

[23]  K. Reichelt,et al.  The preparation of thin films by physical vapour deposition methods , 1990 .

[24]  M. Leskelä Rare earths in electroluminescent and field emission display phosphors , 1998 .

[25]  I. Ndukwe Solution growth, characterization and applications of zinc sulphide thin films , 1996 .

[26]  A. Suzuki,et al.  Homoepitaxial growth of ZnS single crystal thin films by molecular beam epitaxy , 1990 .

[27]  R. Mauch Electroluminescence in thin films , 1996 .

[28]  W Steckelmacher,et al.  Physics of thin films , 1979 .

[29]  Everett Y. M. Lee,et al.  Growth of ZnS films by chemical vapor deposition of Zn[S , 2005 .