Using nanocellulose broken down from tree fibres, a team from KTH Royal Institute of Technology in Sweden and Stanford University in US produced an elastic, foam-like battery material that can withstand shock and stress.
"It is possible to make incredible materials from trees and cellulose," said Max Hamedi, who is a researcher at KTH and Harvard University.
One benefit of the new wood-based aerogel material is that it can be used for three-dimensional structures.
"There are limits to how thin a battery can be, but that becomes less relevant in 3D," Hamedi said.
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The process for creating the material begins with breaking down tree fibres, making them roughly one million times thinner.
The nanocellulose is dissolved, frozen and then freeze-dried so that the moisture evaporates without passing through a liquid state.
Then the material goes through a process in which the molecules are stabilised so that the material does not collapse.
"The result is a material that is both strong, light and soft," Hamedi said.
"The material resembles foam in a mattress, though it is a little harder, lighter and more porous. You can touch it without it breaking," said Hamedi.
"We use a very precise technique, verging on the atomic level, which adds ink that conducts electricity within the aerogel. You can coat the entire surface within," said Hamedi.
In terms of surface area, Hamedi compares the material to a pair of human lungs, which if unfurled could be spread over a football field.
Similarly, a single cubic decimetre of the battery material would cover most of a football pitch, he said.
"You can press it as much as you want. While flexible and stretchable electronics already exist, the insensitivity to shock and impact are somewhat new," Hamedi added.