Spectrally Selective Window Films

High Levels of Daylight with Reduced Solar Gain


Avery Dennison’s Spectrally Selective window films reduce solar heat gain while maintaining high levels of daylight entering through windows. Spectrally Selective films reduce UV damage and fading caused by the sun and help maintain a comfortable interior - without compromising the view.

All Avery Dennison Spectrally Selective  interior and exterior window films provide:
  • High visible light transmission that is barely discernible on glass to maintain the building’s original facade
  • High level of heat rejection to reduce the energy required to cool building while improving the occupant comfort
  • Low reflectivity preserves the view both in daylight and nighttime hours
  • Blocks 99+% of UV to reduce sun damage and fading


Spectrally Selective Interior Films


SP e-Lite i
Delivering excellent levels of heat rejection, the SP e-Lite i films help maintain cool, comfortable appearance. The film’s neutral color features low visible reflection inside and out. Available in a range of Visual Light Transmissions (VLTs) and compatible with all glass glazing window systems, these films are particularly popular for historic buildings, museums and residential projects.


Spectrally Selective Exterior Films


SP e-Lite X
Like SP e-Lite i, these films deliver heat rejection and enhanced building resident comfort, without compromising the original building facade or view. Applied to the exterior of the glass, they are frequently used in retrofit projects with no disruption to the going ons in the interior space.
 

SP Blue X
The subtle blue tint of this film filters 88% of heat-building IR radiation to keep a building cooler and more comfortable without blocking valuable and welcomed natural daylight. Compatible with all glass glazing systems, SP Blue X is popular in both residential and commercial applications.


Resources

Architectural Film to Glass Application Chart 

Blog Post: A Guide on Home Window Tinting for Your House or Apartment