Note: This article is from Conservation Magazine, the precursor to Anthropocene Magazine. The full 14-year Conservation Magazine archive is now available here.

A More Transparent Energy Plan

December 7, 2012

See-through solar cells turn windows into power sources

Many people look at skyscrapers and see symbols of human ingenuity and power. Richard Lunt sees actual power—in the form of electricity. Lunt, an engineering professor at Michigan State University, aims to develop solar windows capable of turning tall buildings into zero-emissions power plants.

Embedding an electricity-generating solar cell in a window is not a new concept, and Lund is only one of several researchers working on the problem. But existing examples of the technology are either not very efficient (meaning they are not very good at being solar cells) or not very transparent (meaning they are not very good at being windows).

“We take an approach where we actually make the active layer itself transparent,” Lunt says. His solar cells use a variety of small organic molecules—some modeled on buckyballs, others on compounds found in plants—to absorb light. “We can tune these materials to pick up just the ultraviolet and just the near-infrared” wavelengths, he explains. Because the materials don’t absorb light in the visible spectrum, they look transparent to the human eye.

So far, Lunt has made a laboratory-scale solar cell that absorbs near-infrared wavelengths, generating enough electricity to power a small clock. (1)

“There’s a lot more potential in the near-infrared,” Lunt says. In part, that’s because more than half the photons that reach Earth are in this portion of the spectrum, so it’s possible to generate more electricity by capturing a smaller proportion of photons.

Moreover, near-infrared light streaming through windows heats up the interior of buildings; capturing those wavelengths with a solar cell could help keep buildings cool. In fact, manufacturers already put low-emissivity coatings on window glass to absorb near-infrared light—Lunt just wants to make such coatings pull double duty.

One day, transparent solar cells could be available in the form of a flexible film that building occupants could install on their windows, much like existing light-blocking or privacy films. “That would make it a lot easier to retrofit,” Lunt says. And because the materials used in the solar cells are so low-cost and are applied in layers thinner than the thickness of a human hair, Lunt argues that it should be feasible to cover whole buildings with them.

Alternatively, solar cells could be incorporated into the windows themselves, sandwiched in the middle of double-paned glass. They could also be added to other transparent surfaces, such as electronics screens. Either way, the approach gets around one of the bugbears of existing solar technology: installation costs.

Lunt’s transparent solar cells are only about two percent efficient now, but he has calculated that the approach could theoretically yield devices that are at least 23 percent efficient. (2) So Lunt is currently working to increase their efficiency to at least 10 percent and is also discussing with several companies how to commercialize and scale up the technology.

—Sarah DeWeerdt

1.  Lunt, R.R. and V. Bulovic. 2011. Applied Physics Letters doi:10.1063/1.3567516.

2.  Lunt, R.R. 2012. Applied Physics Letters doi:10.1063/1.4738896.

Photo ©xyno/iStock.com

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