The study, led by University of Massachusetts at Amherst engineering professor Jun Yao, examined the use of nanopores made in materials allowing vapor to pass through in a way that generates an electrical charge.
Yao’s team developed a prototype of the device, called an “Air-Gen,” which is capable of generating a small charge. However, the product is a long way off from being able to generate a useable amount of power.While one prototype only produces a small amount of energy — almost enough to power a dot of light on a big screen — because of its size, Yao said Air-gens can be stacked on top of each other, potentially with spaces of air in between. Storing the electricity is a separate issue, he added.
Yao estimated that roughly 1 billion Air-gens, stacked to be roughly the size of a refrigerator, could produce a kilowatt and partly power a home in ideal conditions. The team hopes to lower both the number of devices needed and the space they take up by making the tool more efficient. Doing that could be a challenge.
Global elites have spent the better part of two decades obsessed with finding “clean” sources of energy, a goal that has proven elusive. Wind turbines are