A Window that Washes Itself? New nano-material may revolutionize solar panels, batteries
|TAU’s nanosized “forest of peptides” can be used as the basis for self-cleaning windows and more efficient batteries.|
A coating on windows or solar panels that repels grime and dirt? Expanded battery storage capacities for the next electric car? New research details a breakthrough in assembling peptides at the nano-scale level that could make these futuristic visions come true in just a few years. Operating in the range of 100 nanometers (roughly one-billionth of a meter) and even smaller, graduate student Lihi Adler-Abramovich and a team working under Ehud Gazit in Tel Aviv University’s Department of Molecular Microbiology and Biotechnology have found a novel way to control the atoms and molecules of peptides so that they “grow” to resemble small forests of grass. These “peptide forests” repel dust and water — a perfect self-cleaning coating for windows or solar panels which, when dirty, become far less efficient.
“This is beautiful and protean research,” says Adler-Abramovich, a Ph.D. candidate. “It began as an attempt to find a new cure for Alzheimer’s disease. To our surprise, it also had implications for electric cars, solar energy and construction.”
A leader in nanotechnology research, Gazit has been developing arrays of self-assembling peptides made from proteins for the past six years. His lab, in collaboration with a group led by Gil Rosenman of TAU’s Faculty of Engineering, has been working on new applications for this basic science for the last two years.
Using a variety of peptides, which they say are as simple and inexpensive to produce as the artificial sweetener aspartame, the researchers create their “self-assembled nano-tubules” in a vacuum under high temperatures. These nano-tubules can withstand extreme heat and are resistant to water.
“We are not manufacturing the actual material, but developing a basic-science technology that could lead to self-cleaning windows and more efficient energy storage devices in just a few years,” says Adler-Abramovich. “As scientists, we focus on pure research. Thanks to Gazit’s work on beta amyloid proteins, we were able to develop a technique that enables short peptides to ‘self-assemble,’ forming an entirely new kind of coating which is also a super-capacitor.”
One of the limitations of the electric car is thrust, and the team thinks their research could lead to a solution to this difficult problem. As a capacitor with unusually high energy density, the nano-tech material could give existing electric batteries a boost — necessary to start an electric car, go up a hill, or pass other cars and trucks on the highway.
“Our technology may lead to a storage material with a high density,” says Adler-Abramovich. “This is important when you need to generate a lot of energy in a short period of time. It could also be incorporated into today’s lithium batteries,” she adds.
Coated with the new material, the sealed outer windows of skyscrapers may never need to be washed again — the TAU lab’s material can repel rainwater, as well as the dust and dirt it carries. The efficiency of solar energy panels could be improved as well, as a rain shower would pull away any dust that might have accumulated on the panels. It means saving money on maintenance and cleaning, which is especially a problem in dusty deserts, where most solar farms are installed today.
The lab already has been approached to develop its coating technology commercially. And Gazit has a contract with drug mega-developer Merck to continue his work on short peptides for the treatment of Alzheimer’s disease — as he had originally foreseen.
The research is published in Nature Nanotechnology.