Revolutionary new 'battery' could let us bottle sunshine

Revolutionary new 'battery' could let us bottle sunshine

- in Science

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Solar energy is clean, abundant, and irritatingly inconvenient: It doesn’t work at night or on cloudy days. You can convert sunshine into electricity and store it in a battery, but that’s complicated and expensive. And much of the time, what you really want isn’t electricity but heat for tasks like cooking or warming homes.

What you want, in other words, is a way to bottle the heat of the noonday sun and then uncork it on demand. That sounds almost impossible, but some very determined scientists have found a way to make it happen — and they’re convinced the technology could be transformative.

A team led by Dr. Dhandapani Venkataraman, a chemist at the University of Massachusetts, reported last month on a new polymer that is stunningly effective at absorbing and releasing heat. Dubbed AzoPMA, the plastic-like material could be the key to the development of a high-efficiency “thermal battery” that could do for solar tech what high-performance electrical batteries have done for iPhones and Tesla cars.

Thermal sponges

The underlying principle of a thermal battery is simple. Any material that holds heat qualifies. A swimming pool that warms up on a sunny August afternoon is a primitive thermal battery, for instance.


What distinguishes AzoPMA is how much heat it can store. Ounce for ounce, it holds a record-setting 200 times as much thermal energy as water. The secret? Its molecules toggle between two shapes, or conformations. When AzoPMA is heated, its molecules adopt their high-energy form. Then, when activated by light or another trigger, the molecules revert to their low-energy form and the stored heat comes gushing out.

Meanwhile, Dr. Jeffrey Grossman, a materials scientist at MIT, is making impressive progress with another type of thermal storage. Grossman has created a fatty compound that melts when heated but, counterintuitively, doesn’t freeze when it cools. It stays melted until activated with a blue LED. Only then does it solidify, releasing its locked-up heat.

 Researchers at MIT developed a chemical heat “battery” that could release its energy on demand. Massachusetts Institute of Technology

“We’re creating materials that store thermal energy in completely new ways,” Grossman says.

What to do with bottled sunshine

Solar thermal batteries may find their first applications in the developing world.

Tata, the Indian industrial conglomerate, is funding the development of solar-thermal ovens that could replace the ubiquitous rural stoves that burn wood, brush, or dung. Fumes from those stoves are a major health hazard. A couple of liters of battery material would hold enough heat for an hour’s worth of emission-free cooking each day.

“Or imagine when go camping, you’d be charging the molecules while you are hiking, then you’d discharge them to cook your dinner,” Venkataraman says. Along the same lines, a colleague at MIT is incorporating thermal-storage batteries into textile fibers, so your hiking jacket and socks might collect warmth during the day and then release it on command at night, after you’ve finished your solar-heated meal.

Thermal batteries could also be bundled up into big storage units to heat entire homes, or spread out as thin films on roadways, rooftops, and car windshields, where they could rapidly melt away snow after winter storms — without any electricity. BMW has been exploring that last idea with Grossman’s team.

Once heat-storage tech becomes practical — perhaps in as little as a decade — Grossman expects many other new uses to open up. “Thermal batteries today are where electrical batteries were a century ago,” he says. “There are exciting applications we’re only starting to understand.”


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