Solar panels are not that efficient, but the scientists have created a new technology to deal with this problem.

Perhaps one in every of the greatest challenges facing solar technology is wasted heat. One crucial measure of solar panels is how economical they're in converting the sun's rays into electricity. Therefore, it's probably immense news that a team from Rice University has created a technique they say might radically improve solar panels work.

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So, the pair, together with Rice grad students as well as Doiron, worked to capture those emissions with wafer-scale films of closely packed carbon nanotubes. Nanotubes had the advantage of simplicity with no moving elements. They were also conduits that would absorb waste heat and, in turn, convert it into narrow-bandwidth photons.

Nanotubes are also durable. The team's proof-of-concept devices operated at up to 1,292 degrees Fahrenheit (700 degree Celsius).

Once they've absorbed the heat waste photons, the nanotubes gain a level of management over them. Photons will enter the tube in any variety of ways, however as soon as they're inside, the tube directs them on wherever to go.

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Obviously, that kind of efficiency rating is unheard of within the world of solar panels. However, although a proof of concept could be a long way from getting used in the real world, from now on developments in the nanotubes might bolster solar panels in ways that we haven't seen yet.