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UK distributorship for Nanogel panels

Xtralite (Rooflights) Ltd, the UK's leading roof glazing specialist, with a solid reputation for well-designed, high quality products backed by excellent service has been appointed as distributor in the UK for Nanogel® filled multiwall polycarbonate panels for commercial glazing systems. Nanogel translucent aerogel is Cabot Corporation's innovative daylighting material that combines high light transmission with energy efficiency. Nanogel filled polycarbonate multi-wall sheet will allow architects substantially greater design freedom, allowing a wider scope to maximize natural light to 'museum light' quality, and at the same time meet the increasingly lower U-values required by building insulation regulations.

Aerogel materials are the best insulating and lightest solid materials in the world. Nanogel translucent aerogel is the world's most advanced, lightweight thermal insulation material that can double the insulation and maintain light transmission values when used as filler within fiberglass, polycarbonate, or glass wall panels and/or skylights. Nanogel aerogel is also sound absorbent, and will not promote the growth of mold and mildew because the material is water resistant.

Specifically designed for the daylighting market, Nanogel is now being used in commercial applications globally, allowing architects to maximise the advantages of natural light in building design, while meeting the lower U-values demanded by progressively tougher building insulation codes.

The feather-light Nanogel is 97% air and is manufactured through a patented surface modification and fine-particle technology developed by Cabot. Poured into translucent glazing panels and packed to prevent settling, the material has a density of 60-80kg/m3. Depending on panel thickness, Nanogel can deliver light transmission up to 80%/cm and an U Value of 0.7 (W/m˛.K) at 25 mm thickness. Moreover, it is also an effective sound insulator, providing up to 50% acoustic reduction at lower frequencies. These benefits provide architects with the possibility for new design solutions where both maximum natural daylight levels and energy efficiency, as well as user comfort, are required.

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