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These smart windows could one day help heat and cool your house automatically

By changing the amount of heat—but not light—the windows can act as automatic temperature control.

These smart windows could one day help heat and cool your house automatically
[Source Image: ekinyalgin/iStock/Getty Images Plus]

Windows have been getting smarter, from energy-efficient panes that keep heated or cooled air from leaking out of homes to self-tinting windows that dim the light coming through without the need for shades. In the future, smart windows might go a step further to actually harvest energy from the sun to heat your house in the winter and reflect it in the summer to keep your home cool, without actually changing how well the sun’s light shines through.

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Nathan Youngblood, an assistant professor in the engineering department at the University of Pittsburgh, works on reconfigurable or phase-change photonics, taking optical components like lenses or mirrors and making them switch between two states. When working with a startup called Bodle on color-changing technology displays, he and his coresearchers thought, If you can use a thin coating on something like a piece of glass to switch it between two different colors, can you also switch between two different states of reflection for infrared light? Infrared light isn’t visible to the human eye, but we feel it as heat. If you could change how much a surface reflects or absorbs infrared light, it could affect the temperature in that space.

[Photo: Youngblood Photonics Lab]
Windows are traditionally pretty bad at regulating the temperature of indoor spaces; cold air seeps through in the winter and warm air in the summer, forcing you to adjust your heat or AC. When it comes to a building’s energy use, about 35% goes to heating, cooling, and ventilation. A lot of the advances in smart windows technology regulates temperature by adjusting the total amount of light—and therefore also heat—by making a pane change between opaque and transparent. Some smart windows dim the light by as much as 90%, meaning you then have to use more lights inside, using more energy. And it can be a disturbance if your window is turning on and off throughout the day, depending on how much sun is hitting it.

“Our goal was to make something that was aesthetically pleasing in that it doesn’t disturb people inside [so] they’re not aware the technology is there and working, but it’s still able to harvest energy and reflect or heat the home depending on the season,” Youngblood says. “Having control over the thermal properties in addition to the optical properties of a window is an area that hasn’t really been explored.”

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A paper published in the journal ACS Photonics, for which Youngblood is the first author, is proof of concept for such a material. Traditional windows are two panes with something like argon gas pumped in between to act as insulation. The researchers created a material with an extra optical coating on the inside of the glass, which can either reflect the infrared light from the sun or absorb it and bring it in as heat, without changing how much visible light shines through.

The challenge comes with being able to control that coating, switching it from absorption mode to reflection mode as the seasons change, which needs to be done electrically. On the small-scale prototypes used for Youngblood’s research, the ability to switch the coating’s properties worked, but it would be more difficult to do over the span of a large window.

This is just the beginning for this type of work, but it could have big impacts. “One of the key innovations that we were able to illustrate was that we can selectively harvest energy from the infrared using materials that are switching between absorbing and reflecting,” Youngblood says, “which opens up the field for a lot of different materials that haven’t been explored yet.” When the researchers simulated potential energy savings, they estimated that using such windows (including the energy needed to control them) would save 20% to 34% in energy usage per year, versus typical double-paned windows.

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