Optical and electrical properties of fluorine-doped gallium-tin oxide composite films on PET prepared by ECR-MOCVD

Keyphrases

• Binding Energy 25%
• Chemical Binding 25%
• Composite Film 100%
• Composite Thin Film 25%
• ECR-PEMOCVD 100%
• Electrical Properties 100%
• Fluorine Doping 100%
• Hall Mobility 25%
• High Optical Transmittance 25%
• Indium Gallium Nitride (InGaN) 100%
• Low Resistivity 25%
• Optical Properties 100%
• Oxide Composite 100%
• Polyethylene Terephthalate 100%
• Polyethylene Terephthalate Substrate 25%
• Surface Roughness 25%
• Tin Oxide Films 25%
• Visible Spectrum 25%
• Zinc Tin Oxide 25%

Material Science

• Composite Films 100%
• Electrical Resistivity 20%
• Film 20%
• Gallium 100%
• Hall Mobility 20%
• Optical Property 100%
• Oxide Film 20%
• Polyethylene Terephthalate 100%
• Surface Roughness 20%
• Thin Films 20%
• Tin Oxide 100%