ITO conductive film (PET) refers to the coating of a layer of indium tin oxide (ITO) film on top of polyester film, usually polyester film, or PET for short. This structure combines the flexibility of PET with the conductive properties of ITO films.
PET is a common plastic film with excellent transparency, flexibility, and durability. When a thin ITO conductive film is applied to the surface of PET, the properties of PET can be maintained while giving it conductive properties.
This structure is used in a wide range of applications, especially in the field of flexible electronics. Due to the flexibility of PET and the conductive properties of ITO, ITO conductive films (PETs) are commonly used in the following areas:
Flexible Displays and Touch Screens:Due to the softness of PET and the superior conductivity of ITO, films with this structure are widely used in the manufacture of flexible displays and touch screens. This includes smartphones, tablets, bendable displays, and other electronic devices that require flexible conductive properties.
Flexible Solar Cells:Thin films of this structure can also be used as substrates for flexible solar cells. The flexibility of PET makes it easier to apply solar cells to curved or curved surfaces.
Sensor Technology:In terms of flexible sensors and electronics**, ITO conductive films (PETs) also have applications, as they can accommodate different surface shapes and provide conductive functionality.
Overall, ITO conductive films (PETs) combine the flexibility of PET with the conductive properties of ITO films, so they have a wide range of applications in the field of flexible electronics.
More recommended: ITO Conductive Film (PET) 300 200mm
ITO Conductive Film (PEN) 300mm*300mm.
ITO Conductive Film (PET) 300mm*300mm.
ITO conductive film (PET) 300*100*0175mm
ITO conductive film (PET) 300*100*0125mm
ITO conductive film (PET) 300*100*005mm
ITO Conductive Film (PET) 300*200*0175mm
ITO Conductive Film Pen Size: 25cm*2.5cm
ito-pet 300*200mm*0.125mm
ito-pen 300*200mm*0.125mm
Edited by Qi Yuehao, December 11, 2023.