Extended Reality (AR/MR)
Experience the forefront of optical innovation for Extended Reality (XR) devices with Pixelligent’s breakthrough PixNIL® high refractive index (RI) formulations.
Reimagining How We Communicate and Entertain
With the Extended Reality market poised for remarkable growth, leading device companies are eager to develop groundbreaking and immersive visual experiences that captivate users. Let Pixelligent’s PixNIL® formulations help you position your products at the forefront of XR innovation and shape the future of consumer engagement by delivering stunning clarity, improved field of view, and unparalleled brightness in your devices.
Explore Our Products
Enabling a Fully Immersive XR Experience
Pixelligent’s high RI PixNIL® formulations with RIs ranging from 1.7-2.0 allow manufacturers to achieve the widest field of view (FoV) waveguides and the most robust mechanical properties available on the XR market. For XR devices, an expanded FoV enables users to perceive a larger augmented environment that is seamlessly blended with the real world, creating a more captivating and immersive experience.
Benefits Beyond What You Can See
Enhance your XR device applications with Pixelligent formulations that deliver unrivaled clarity, expanded field of view (FoV), and unmatched optical benefits. Our products enable more immersive experiences and are setting the industry standard.
High RI Materials that Enhance XR Device Capabilities
Explore our PixNIL® high RI product line designed especially for Extended Reality and optical sensor applications.
- Residual Layer Thickness: <30nm
- Film Thickness Range: 150-500nm
- Refractive index: 1.86
- Haze: <0.1%
- Transparency: >95%
- Nanocrystal: 15nm particle size
- Solvent Type: PGMEA
- Dispensing Method: Spin Coat / Slot Die
- Curing Method: UV
- Nanocrystal: PixClear Titania 20nm
- Solvent Type: PGMEA
- Dispensing Method: Spin Coat / Slot Die
- Refractive index: 1.7
- Transparency: >95%
- Film Thickness Range: 0.5-1.5 µm
- Curing Method: UV
- Haze: <0.1%
- Nanocrystal: PixClear Zirconia 10nm
- Solvent Type: None
- Dispensing Method: Spin Coat / Slot Die
- Refractive index: 1.7
- Transparency: >95%
- Film Thickness Range: 5.0-15.0 µm
- Curing Method: UV
- Haze: <0.1%
- Nanocrystal: PixClear Titania 20nm
- Solvent Type: PGMEA
- Dispensing Method: Spin Coat / Slot Die
- Refractive index: 1.7
- Transparency: >93%
- Film Thickness Range: 0.5-1.5 µm
- Curing Method: UV
- Haze: <0.2%
- Nanocrystal: PixClear Titania 20nm
- Solvent Type: PGMEA
- Dispensing Method: Spin Coat / Slot Die
- Refractive index: 1.9
- Transparency: >93%
- Film Thickness Range: 0.1-0.5 µm
- Curing Method: UV
- Haze: <0.2%
- Nanocrystal: PixClear Titania 20nm
- Solvent Type: None
- Dispensing Method: Spin Coat / Slot Die
- Refractive index: 1.9
- Transparency: >93%
- Film Thickness Range: 3.0-10.0 µm
- Curing Method: UV
- Haze: <0.2%
- Nanocrystal: PixClear Titania 20nm
- Solvent Type: None
- Dispensing Method: Spin Coat / Slot Die
- Refractive index: 2
- Transparency: >91%
- Film Thickness Range: 0.5-1.5 µm
- Curing Method: UV
- Haze: <0.1%
- Nanocrystal Size: 10 nm, capped
- Capping: Non-functional
- Nanocrystal Base: Titania
- Compatibility: Compatible with polar solvents
- Custom formulations available upon request
- Nanocrystal Size: 20 nm, capped
- Capping: Functional
- Nanocrystal Base: Titania
- Compatibility: Compatible with polar solvents
- Larger nanocrystal provides the highest refractive index available on the market
- Custom formulations available upon request
- Solvent Type: PGMEA
- Nanocrystal Size: 10 nm, capped
- Capping: Functional or non-functional
- Nanocrystal Base: Zirconia
- Solvent Type: ETA
- Nanocrystal Size: 10 nm, capped
- Capping: Functional or non-functional
- Nanocrystal Base: Zirconia
