Abstract
In this research, transparent conductive films of indium tin oxide (ITO) were deposited by solution processing sol–gel ink through spin coating on soda-lime glass and sheet glass substrates. The processing parameters evaluated include the deposition humidity, spin coating speed, and ink concentration. The optical transmittance of the ITO thin films was collected by UV–vis spectrophotometry, while the electrical properties were studied by sheet resistance measurements and impedance spectroscopy (IS) using an in-plane configuration. The lowest sheet resistance achieved for a single layer film is 104 Ω/□, with a corresponding low frequency impedance magnitude of 2 × 105. These values were obtained at medium humidity values while maintaining high optical transparency (>90%) in the visible light region. High humidity values were found to affect the substrate wetting property of the ITO ink and increased the possibility of hydrolysis during deposition, resulting in the formation of non-uniform surface patterns. A spin coating speed of 4000 rpm or more is required to obtain a uniform ITO film with desirable electrical and optical properties. Once the optimum combination of parameters is obtained, the sheet resistance and impedance magnitude can be reduced to ∼102 Ω/□ through multilayer deposition and annealing in a reducing atmosphere with minimal effect on the optical transmittance (>90%) and surface morphology, making these materials useful as electrodes for electro-optic applications. When the optimal values of the main deposition parameters are used, the ink concentration was found to have minimal effect on the quality and properties of the ITO films.
Highlights
Transparent conducting films represent a unique class of materials exhibiting high electrical conductivity while maintaining excellent optical transparency in the visible light region
The main goal was to determine the optimal value for each parameter as well as determining the parameter that has the largest effect on the quality and properties of the Indium tin oxide (ITO) films
Our experiments have demonstrated that controlling the humidity of the environment during film deposition is the main factor to obtaining high quality films followed by spin speed and ink concentration
Summary
Transparent conducting films represent a unique class of materials exhibiting high electrical conductivity while maintaining excellent optical transparency in the visible light region. Doped-metal oxide films are the most common transparent conducting films since their properties can be tuned through doping. Indium tin oxide (ITO) is most widely used due to its high stability and ease of fabrication.. In recent times, alternatives such as conductive polymers, carbon nanotubes (CNTs), and ultra-thin metal films have been extensively explored due to the expensive nature of ITO.. The main application of transparent conducting films is as electrodes in electronic and optoelectronic devices that require low resistance electrical contacts while transmitting most of the incident light without blocking. These devices include liquid-crystal displays (LCDs), flat panel displays, light-emitting diodes (LEDs), and photovoltaics.
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