Displays

Optimize light efficiency and device performance in cutting-edge display applications with Pixelligent’s high-refractive-index (RI) formulations.

Delivering
Next-Gen Displays

As the display market continues to evolve, manufacturers are redefining how we experience visual content while striving to maintain the exceptional image quality, clarity, and efficiency that consumers expect. With Pixelligent’s high-refractive-index (RI) PixJet®, PixClear®, PixCor®, and PixMicro™ product lines, display manufacturers can enhance light extraction, reduce heat output, and optimize device performance, all while maintaining a competitive price.

Explore Our Products

Enhancing Light Extraction Efficiency

When incorporated into the display stack, Pixelligent’s high-refractive-index (RI) formulations and dispersions enable precise tuning of the refractive index across multiple layers. By index-matching these layers, display manufacturers can reduce total internal reflection (TIR) and increase light extraction by up to 20%, minimizing wasted energy and reducing heat. This leads to longer battery life, greater brightness, and optimized device performance.

 

Index matching reduces total internal reflection (TIR), increasing light output, emission, and brightness
Reduction of total internal reflection (TIR) improves operating efficiency
Reduction of total internal reflection (TIR) improves battery life
Reduced index mismatch between layers results in higher transparency and lower haze.
Reduction of total internal reflection (TIR) improves light extraction, reducing the need for costly thermal management components
Index matching minimizes the likelihood of reflection
Improve Display Brightness
Improve Device Efficiency
Extend Device Operating Time
Improve Image Clarity
Reduce Device Heat Output
Minimize Reflection
Improve Display Brightness
Index matching reduces total internal reflection (TIR), increasing light output, emission, and brightness
Improve Device Efficiency
Reduction of total internal reflection (TIR) improves operating efficiency
Extend Device Operating Time
Reduction of total internal reflection (TIR) improves battery life
Improve Image Clarity
Reduced index mismatch between layers results in higher transparency and lower haze.
Reduce Device Heat Output
Reduction of total internal reflection (TIR) improves light extraction, reducing the need for costly thermal management components
Minimize Reflection
Index matching minimizes the likelihood of reflection

Benefits That Optimize Display Performance

Pixelligent is the only company that controls every critical component of a high-refractive-index (RI) formulation. This comprehensive, end-to-end capability delivers unmatched improvements in brightness, battery life, image clarity, and overall device efficiency for OLED and microLED display applications.

High RI Products Designed to Advance Next-Gen Displays

Explore Pixelligent’s high-refractive-index (RI) PixMicro™, PixCor®, PixJet®, and PixClear® product lines designed for next-generation OLED and microLED display applications.

PixMicro™ Formulations
PixCor® Products
PixJet® Formulations
PixClear® Titania Products
PixClear® Zirconia Products
PixMicro™ T84
PixMicro™ CS80
PixMicro™ Z66
PixMicro™ Z71
RI of 1.84
PixMicro™ T84
  • Nanocrystal: PixClear Titania 20nm
  • Solvent Type: None
  • Dispensing Method: Spin Coat / Slot Die
  • Refractive Index: 1.84
  • Percent Transparency: >90%
  • Film Thickness Range: 5 – 50 μm
  • Curing Method: UV
  • Percent Haze: <0.1%
  • Low shrinkage
Learn More
RI of 1.8
PixMicro™ CS80
  • Nanocrystal: PixClear Coreshell 20nm
  • Solvent Type: None
  • Dispensing Method: Spin Coat / Slot Die
  • Refractive Index: 1.80
  • Percent Transparency: >94%
  • Film Thickness Range: 5 – 50 μm
  • Curing Method: UV
  • Percent Haze: <0.2%
  • Low shrinkage
Learn More
RI of 1.66
PixMicro™ Z66
  • Nanocrystal: PixClear Zirconia 10nm
  • Solvent Type: None
  • Dispensing Method: Spin Coat / Slot Die
  • Refractive Index: 1.66
  • Percent Transparency: >98%
  • Film Thickness Range: 5 – 50 μm
  • Curing Method: UV
  • Percent Haze: <0.05%
  • Low shrinkage
Learn More
RI of 1.71
PixMicro™ Z71
  • Nanocrystal: PixClear Zirconia 10nm
  • Solvent Type: None
  • Dispensing Method: Spin Coat / Slot Die
  • Refractive Index: 1.71
  • Percent Transparency: >95%
  • Film Thickness Range: 5 – 50 μm
  • Curing Method: UV
  • Percent Haze: <0.08%
  • Low shrinkage
Learn More
PixNIL® SCS3-2S
PixMicro™ CS80
Up to 1.8RI
PixNIL® SCS3-2S
  • Film Thickness Range: 0.1-1.5 μm
  • Refractive index: 1.8
  • Haze: <0.1%
  • Transparency: >90%
  • Nanocrystal: PixClear Coreshell 20nm
  • Solvent Type: PGMEA
  • Dispensing Method: Spin Coat / Slot Die
  • Curing Method: UV
Learn More
Up to 1.8RI
PixMicro™ CS80
  • Nanocrystal: PixClear Coreshell 20nm
  • Solvent Type: None
  • Dispensing Method: Spin Coat / Slot Die
  • Refractive index: 1.80
  • Transparency: >94%
  • Film Thickness Range: 5 – 50 μm
  • Curing Method: UV
  • Haze: <0.2%
Learn More
PixJet® SFZ5
PixJet® SFZ6
PixJet® SFZ7
Up to 1.65RI
PixJet® SFZ5
  • Nanocrystal: PixClear® Zirconia 10nm
  • Solvent Type: None
  • Dispensing Method: Inkjet
  • Surface Tension: 25 (dyne/cm)
  • Application: Planarization Layer
  • Refractive index: 1.65
  • Percent Transparency: >97%
  • Film Thickness Range: Undefined
  • Curing Method: UV (Air)
  • Percent Haze: <0.2%
  • High Print Head Heating
  • Good Wetting of Display Substrates
Learn More
Up to 1.65RI
PixJet® SFZ6
  • Nanocrystal: PixClear® Zirconia 10nm
  • Solvent Type: None
  • Dispensing Method: Inkjet
  • Surface Tension: 37 (dyne/cm)
  • Application: Microlens Array
  • Refractive index: 1.65
  • Percent Transparency: >98%
  • Curing Method: UV (Air)
  • Percent Haze: <0.2%
  • Good Lens Formation
  • Lens Aspect Ratio: Up to 0.42
  • High Print Head Heating
Learn More
Up to 1.65RI
PixJet® SFZ7
  • Nanocrystal: PixClear® Zirconia 10nm
  • Solvent Type: None
  • Dispensing Method: Inkjet
  • Surface Tension: 37 (dyne/cm)
  • Application: Microlens Array (Reduced Color)
  • Refractive index: 1.65
  • Percent Transparency: >98%
  • Curing Method: UV (Inert)
  • Percent Haze: <0.2%
  • Good Lens Formation
  • Lens Aspect Ratios: Up to 0.45
  • High Print Head Heating
Learn More
10nm Titania (PTPG)
20nm Titania (LTPF)
10 nm, capped
10nm Titania (PTPG)
  • Nanocrystal Size: 10 nm, capped
  • Capping: Non-functional
  • Nanocrystal Base: Titania
  • Compatibility: Compatible with polar solvents
  • Custom formulations available upon request
Learn More
20 nm, capped
20nm Titania (LTPF)
  • 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
Learn More
10nm Zirconia in PGMEA
10nm Zirconia in ETA
10 nm, capped
10nm Zirconia in PGMEA
  • Solvent Type: PGMEA
  • Nanocrystal Size: 10 nm, capped
  • Capping: Functional or non-functional
  • Nanocrystal Base: Zirconia
Learn More
10 nm, capped
10nm Zirconia in ETA
  • Solvent Type: ETA
  • Nanocrystal Size: 10 nm, capped
  • Capping: Functional or non-functional
  • Nanocrystal Base: Zirconia
Learn More

Display Application Resources

Pixelligent Launches PixJet® Family of High-Index Products for Advanced Displays
Read More
Press Release
Pixelligent Launches PixJet® Family of High-Index Products for Advanced Displays
Improved Light Extraction for OLED Displays
Read More
White Papers
Improved Light Extraction for OLED Displays
Inkjet Printing of Zirconia Nanocomposite Materials
Read More
White Papers
Inkjet Printing of Zirconia Nanocomposite Materials
View More

See How We Can Enable Your Next-Gen Display Applications

Contact Us