ITO Coated Optical Window - High Transparency and Conductivity
Description
The ITO Coated Optical Window from Sinoptix is a high-performance solution that integrates optical clarity with electrical conductivity. Featuring a thin Indium Tin Oxide (ITO) coating, these windows offer excellent light transmission—typically over 85%—along with low sheet resistance, ranging from 10 to 100 ohms/sq. This combination makes the product ideal for applications such as LCDs, OLED displays, touchscreens, solar panels, and optical sensors.
The ITO-coated windows provide a customizable option with various sizes and thicknesses, catering to the specific needs of industries requiring both optical and conductive performance. The durable coating ensures stable functionality even in challenging environments, resisting wear and maintaining high levels of transparency over extended periods. These windows are also designed to operate efficiently at temperatures up to 150°C, making them suitable for both indoor and outdoor applications.
In solar energy systems, the ITO coating improves energy efficiency by facilitating better light transmission while maintaining electrical conductivity for current flow. In touchscreen technologies, the product’s conductive layer enhances the precision and responsiveness of the interface. For optical sensors, the window’s high transparency ensures accurate light detection, making it invaluable for scientific instruments and measurement devices.
This advanced product meets the stringent demands of modern electronic and optical applications while being supported by Sinoptix's comprehensive quality control and customizable design options, ensuring that clients receive high-quality, reliable components tailored to their needs.
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ITO Coated Optical Window - High Transparency and Conductivity
Specifications |
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|---|---|
| Coating Layers: | Single-layer |
| Angle Of Incidence (AOI): | Not Specified |
| Wavelength Range: | 300-1800nm |
| Resistivity: | up to 200ohms/SQ |
| Coating: | Indium Tin Oxide (ITO) |
| Transmission (visible Range): | >85 % |
| Thickness: | Customizable (standard: 0.5 mm - 3 mm) |
| Operating Temperature: | Up to 150 °C |
| Applications: | Displays, Solar Cells, Touchscreens |
| Material: | Glass or Quartz |
Features
- High Optical Transparency: Ensures over 85% transmission
- Excellent Conductivity: Low sheet resistance as low as 10 ohms/sq
- Customizable: Available in various sizes and thicknesses
- Durable Coating: Provides wear resistance and stability
- Wide Application Range: Suitable for displays, touchscreens, and optical sensors
Applications
- Display Technology: Ideal for LCD, OLED, and other display systems
- Solar Cells: Enhances efficiency by improving light transmission and conductivity
- Touchscreens: Provides conductive layers for responsive touch interfaces
- Optical Sensors: Ensures high transmission with minimal interference
For pricing, technical or any other questions please contact the supplier
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- No markups, no fees
- Direct contact with supplier
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How to order?
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Ships from:
Belgium
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Sold by:
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On FindLight:
since 2020
Frequently Asked Questions
An ITO-coated optical window is a transparent glass with an Indium Tin Oxide coating that offers both high light transmission and electrical conductivity.
The window can be made from glass or quartz, with a thin coating of Indium Tin Oxide (ITO).
These windows are widely used in display technologies, touchscreens, solar panels, and optical sensors.
The ITO coating allows over 85% transmission of light in the visible spectrum.
The sheet resistance ranges from 10 to 100 ohms/sq, providing excellent electrical conductivity.
Yes, the windows are customizable in terms of size, thickness, and other specifications to suit specific applications.
The windows can operate efficiently at temperatures up to 150°C, making them suitable for various environments.
The ITO coating is designed to resist wear and maintain optical and electrical performance over time.
The product is used in industries such as electronics, renewable energy, and precision optical instruments.