Resistivity and optical transmittance simulation on metal embedded transparent conducting oxide thin films
Description
This work focuses on simulation of electrical resistivity and optical behaviors of thin films, where an Ag or Au thin layer is embedded in zinc oxide. Enhanced conductivity and transparency were earlier achieved with multilayer structured transparent conducting oxide (TCO) sandwich layer with metal (TCO/metal/TCO). Sputtering pattern of metal layer is simulated to obtain the morphology, covered area fraction, and the percolation strength. The resistivity as a function of the metal layer thickness fits the modeled trend of covered area fraction beyond the percolation threshold. This result not only presents the robustness of the simulation, but also demonstrates the influence of metal morphology in multilayer structure. Effective medium coefficients are defined from the coverage and percolation strength to obtain simulated optical transmittance which matches experimental observation. The coherence of resistivity and optical transmittance validates the simulation of the sputtered pattern and the incorporation of percolation theory in the model.
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
2012
Agent
- Author (aut): Fang, Chia-Ling
- Thesis advisor (ths): Alford, Terry L.
- Committee member: Crozier, Peter
- Committee member: Theodore, David
- Publisher (pbl): Arizona State University