News Brief

Berkeley Breakthrough Opens Potential for "Smart Windows"

Researchers at Lawrence Berkeley National Laboratories have developed a technology that prevents solar heat gain without blocking visible light, allowing for “smart windows” that can respond to outdoor conditions without a visible change in the window.

At present, electrochromic window coatings can block near-infrared radiation, which causes heat gain, but only by darkening the window at the same time; this can lead to increased use of indoor lighting and offset the energy benefits of smart windows. The new technology uses a transparent nanocrystal coating of indium tin oxide—a semiconductor used in flat-screen TV displays.

The coating could allow for the creation of smart windows programmed to work in tandem with HVAC and lighting systems by selectively allowing heat to pass and always allowing light to pass—thereby reducing heating, cooling, and lighting loads.

Semiconductive nanocrystals allowed Berkeley researchers to develop an adjustable electrochromic coating, a breakthrough that could really put the smart in “smart windows.”

image: Lawrence Berkeley National Laboratories
Researchers also reported that the new coating requires less electricity in order to work compared with typical electrochromic coatings, making it more efficient in its own right. For more information, see www.newscenter.lbl.gov

Published November 1, 2011

Dick, E. (2011, November 1). Berkeley Breakthrough Opens Potential for "Smart Windows". Retrieved from https://www.buildinggreen.com/newsbrief/berkeley-breakthrough-opens-potential-smart-windows

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