1. ITO is an indium tin oxide coated glass with low sheet resistance and high transmittance. Working temp lower than 300℃.
2. Parameter Sheet resistance: 82%–Conductive layer thickness: 1000±200A–Film gloss: gold-yellow–Cross section color: blue
3. CNC cutting CNC achieves high dimensional control accuracy .
4. Professional Coating & Package Large-scale process to make the coating uniform and smooth. & Each glass is separated by a paper film to protect the coating and avoid breakage.
5. Application ITO is widely used in mobile phone screens, OLED, OPV, PDA, calculator, e-book, electrochromic devices, electromagnetic shielding, photocatalysis, solar cells, biological experiments, electrochemical experiments (electrodes) .etc
ITO is an indium tin oxide coated glass and belongs to TCO (transparent conductive oxide) conductive glass.ITO has low sheet resistance and high transmittance. Working temp lower than 300℃.It is widely used in mobile phone screens, OLED, OPV, PDA, calculator, e-book, electrochromic devices, electromagnetic shielding, photocatalysis, solar cells, biological experiments, electrochemical experiments (electrodes) .etc
What is ITO Conductive Glass?
1. ITO conductive glass is manufactured by depositing silicon dioxide (SiO2) and indium tin oxide (commonly referred to as ITO) thin films on the basis of soda-lime or borosilicate glass by using a magnetron measurement method.
2. ITO is a metal compound with good transparent and conductive properties. It has the characteristics of forbidden bandwidth, high light transmittance and low resistivity in the visible spectrum region. It is widely used in affirmative display devices, solar cells, and special functional window coatings. Laboratory equipment and other optoelectronic devices.
What is FTO Conductive Glass?
1. FTO conductive glass is fluorine-doped SnO2 transparent conductive glass (SnO2: F), referred to as FTO.
2. SnO2 is a wide band-gap oxide semiconductor that is transparent to visible light, with a band gap of 3.7-4.0eV, and has a regular tetrahedral gold red structure. After being doped with fluorine, the SnO2 film has the advantages of good light transmittance to visible light, large ultraviolet absorption coefficient, low resistivity, stable chemical properties, and strong resistance to acid and alkali at room temperature.
