A very different, very clean energy source: thin air
A microbial organism pulls electricity from water in the air.
- Hidden in the mud along the banks of Washington D.C.'s Potomac River may be a profound new source of electricity.
- The microbe makes nanowires that produce a charge from water vapor in ordinary air.
- Already capable of powering small electronics, it appears that larger-scale power generation is within reach.
The mad rush is on for discovering clean and renewable forms of energy before it's too late. Turns out, researchers may have unknowingly had it in hand for decades. It's a sediment organism first found along the muddy shores of the Potomac River and reported in a letter to the journal Nature in 1987. It turns out the microbe produces electricity out of thin air, one resource we're unlikely to run out of. University of Massachusetts Amherst scientists have just revealed their development of a device for harvesting this electricity in Nature.
The amazing microbe
Image source: Anna Klimes and Ernie Carbone, UMass Amherst/Wikipedia
The rod-shaped microbe, Geobacter sulfurreducens is, as its name implies, a member of the Geobacter genus, a group referred to as "electrigens" for their known ability to generate an electrical charge. It was UMass Amherst microbiologist Derek Lovley who found and wrote about the microbe in the late 80s.
It was also Lovlley's lab that discovered the microbe has a talent for producing electrically conductive protein nanowires, and his lab recently developed a new Geobacter strain that could produce them more rapidly and inexpensively. "We turned E. coli into a protein nanowire factory," Lovley says. What this means, he says, is that "With this new scalable process, protein nanowire supply will no longer be a bottleneck to developing these applications."
Enter electrical engineer Jun Yao, also of UMass Amherst. His specialty had been engineering electronic devices using silicon nanowires. The two decided to work together to see if they could turn Geobacter's protein nanowires into something useful.
Artisit's conception of the duo's Air-gen, with Geobacter's charge-producing nanowires imagined beneath the device.
Image source: UMass Amherst/Yao and Lovley labs
The fruit of their collaboration is a device they call "Air-gen." It employs a thin film of Geobacter nanowires less than 10 microns thick resting on an electrode. Another, smaller electrode sits on top of the film. The film collects, or adsorbs, water vapor, and its surface chemistry and conductivity produce a charge that passes between the two electrodes through the fine gaps between individual nanowires.
Yao's doctoral student Xiaomeng Liu recalls, "I saw that when the nanowires were contacted with electrodes in a specific way the devices generated a current. I found that that exposure to atmospheric humidity was essential and that protein nanowires adsorbed water, producing a voltage gradient across the device."
Says Yao, "We are literally making electricity out of thin air." The Air-gen generates clean energy 24/7. "It's the most amazing and exciting application of protein nanowires yet." The two see their new technology as being non-polluting, renewable, and low cost- with distinct advantages over other developing energy sources such as solar and wind for at least one big reason, "it even works indoors" notes Lovley.
Something in the air
Air-gen producing electrical current
Image source: UMass Amherst/Yao and Lovley labs
At this point, Air-gen generates "a sustained voltage of around 0.5 volts across a 7-micrometre-thick film, with a current density of around 17 microamperes per square centimeter," enough power to run small electronics. Chaining together several Air-gen units produces even more voltage. The device marks an obvious advance beyond other existing moisture-based energy-harvesting devices that are capable only of intermittent bursts of electricity that last less than 50 seconds.
Lovley and Yao plan Air-gen modifications that will allow Air-gen to replace the batteries used in electronic wearables — smart watches and other health and fitness devices — providing self-renewing energy. They also expect it to soon provide power for mobile phones the user will no longer need to recharge.
"The ultimate goal," says Yao, "is to make large-scale systems. For example, the technology might be incorporated into wall paint that could help power your home. Or, we may develop stand-alone air-powered generators that supply electricity off the grid. Once we get to an industrial scale for wire production, I fully expect that we can make large systems that will make a major contribution to sustainable energy production."
Clearly excited by the work so far, Yao says, "This is just the beginning of new era of protein-based electronic devices."
Universities claim to prepare students for the world. How many actually do it?
- Many university mission statements do not live up to their promise, writes Ben Nelson, founder of Minerva, a university designed to develop intellect over content memorization.
- The core competencies that students need for success—critical thinking, communication, problem solving, and cross-cultural understanding, for example—should be intentionally taught, not left to chance.
- These competencies can be summed up with one word: wisdom. True wisdom is the ability to apply one's knowledge appropriately when faced with novel situations.
This is what the world will look like, 250 million years from now
To us humans, the shape and location of oceans and continents seems fixed. But that's only because our lives are so short.
As a doctor, I am reminded every day of the fragility of the human body, how closely mortality lurks just around the corner.
Tyson dives into the search for alien life, dark matter, and the physics of football.
- Astrophysicist Neil deGrasse Tyson joins us to talk about one of our favorite subjects: space.
- In the three-chaptered video, Tyson speaks about the search for alien life inside and outside of the Goldilocks Zone, why the term "dark matter" should really be called "dark gravity," and how the rotation of the Earth may have been the deciding factor in a football game.
- These fascinating space facts, as well as others shared in Tyson's books, make it easier for everyone to grasp complex ideas that are literally out of this world.
SpaceX's momentous Crew Dragon launch is a sign of things to come for the space industry, and humanity's future.