Sapphire ITO Coated Glass Substrate with High Optical Transmittance Low Sheet Resistance and Excellent Thermal Stability
Product Overview
Sapphire ITO coated substrate is a high-performance material consisting of a single-crystal sapphire (Al₂O₃) wafer coated with a transparent conductive Indium Tin Oxide (ITO) thin film.
This combination integrates:
- The exceptional mechanical strength and thermal stability of sapphire
- The excellent electrical conductivity and optical transparency of ITO
Compared with conventional glass-based ITO substrates, sapphire-based solutions provide superior durability, wider optical transmission range, and better performance in harsh environments, making them ideal for advanced optoelectronic applications.
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Structure & Working Principle
Structure & Working PrincipleITO (Indium Tin Oxide) is a transparent conductive oxide (TCO) that enables both electrical conduction and light transmission.
The ITO layer is typically deposited onto the sapphire surface using:
- Magnetron sputtering
- Electron beam evaporation
- Pulsed laser deposition (PLD)
Working principle:
- The ITO coating forms a thin conductive layer
- Sapphire acts as a high-transparency, high-strength substrate
- Together, they function as a transparent electrode material
Key Features
- High optical transmittance: ≥85% (visible range)
- Low sheet resistance: 5–100 Ω/□
- Excellent thermal stability: suitable for high-temperature processes
- Outstanding hardness: Mohs 9 (scratch-resistant)
- Wide spectral transmission: UV to IR
- Strong coating adhesion and durability
Applications
Sapphire ITO coated substrates are widely used in:
- GaN-based LEDs (transparent electrodes)
- UV photodetectors and sensors
- Laser systems and optical windows
- High-temperature optoelectronic devices
- MEMS and microelectronic devices
- Specialized transparent conductive components
Typical Specifications
| Item | Specification |
|---|---|
| Substrate Material | Sapphire (Al₂O₃) |
| Diameter | 2", 4", 6" or customized |
| Thickness | 0.2 – 1.0 mm |
| ITO Thickness | 50 – 300 nm |
| Sheet Resistance | 5 – 100 Ω/□ |
| Transmittance | ≥85% |
| Surface Finish | SSP / DSP |
| Coating | Single-side / Double-side |
Manufacturing Process
- Sapphire substrate polishing and cleaning
- Vacuum deposition of ITO thin film
- Thermal annealing (to optimize conductivity and transparency)
- Optional photolithography and patterning
- Final inspection and packaging
FAQ
Q1: What is the advantage of sapphire over glass for ITO coating?
A: Sapphire offers significantly higher hardness, better thermal resistance, and a wider optical transmission range, making it suitable for demanding environments.
Q2: How does ITO thickness affect performance?
A:
- Thicker ITO → lower resistance but reduced transparency
- Thinner ITO → higher transparency but increased resistance
Q3: Can patterned electrodes be fabricated?
A: Yes, customized patterns can be achieved through photolithography and etching processes.
Q4: Is double-side coating available?
A: Yes, both single-side and double-side ITO coatings can be provided based on application requirements.
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