Novel battery stretches to 300% of original size

Novel battery stretches to 300% of original size
Flexible electronics may now be just beyond our reach, as a research team from Northwestern and University of Illinois have demonstrated a stretchable lithium-ion battery.
No longer needing to be connected by a cord to an electrical outlet, the stretchable electronic devices now could be used anywhere, including inside the human body. The implantable electronics could monitor anything from brain waves to heart activity, succeeding where flat, rigid batteries would fail.
Northwestern University’s Yonggang Huang and the University of Illinois’ John A. Rogers have demonstrated a battery that continues to work—powering a commercial LED—even when stretched, folded, twisted and mounted on a human elbow. The battery can work for eight to nine hours before it needs recharging, which can be done wirelessly.
“We start with a lot of battery components side by side in a very small space, and we connect them with tightly packed, long wavy lines, ” said Huang. “These wires provide the flexibility. When we stretch the battery, the wavy interconnecting lines unfurl, much like yarn unspooling. And we can stretch the device a great deal and still have a working battery.”
The power and voltage of the stretchable battery are similar to a conventional lithium-ion battery of the same size, but the flexible battery can stretch up to 300 per cent of its original size and still function.
Six years in the making
Huang and Rogers have been working together for the last six years on stretchable electronics, and designing a cordless power supply has been a major challenge. Now they have solved the problem with their clever “space filling technique, ” which delivers a small, high-powered battery.
For their stretchable electronic circuits, the two developed “pop-up” technology that allows circuits to bend, stretch and twist. They created an array of tiny circuit elements connected by metal wire “pop-up bridges.” When the array is stretched, the wires—not the rigid circuits—pop up.
This approach works for circuits but not for a stretchable battery. A lot of space is needed in between components for the “pop-up” interconnect to work. Circuits can be spaced out enough in an array, but battery components must be packed tightly to produce a powerful but small battery. There is not enough space between battery components for the “pop-up” technology to work.
Huang’s design solution is to use metal wire interconnects that are long, wavy lines, filling the small space between battery components. (The power travels through the interconnects.)
The unique mechanism is a “spring within a spring”: The line connecting the components is a large “S” shape and within that “S” are many smaller “S’s.” When the battery is stretched, the large “S” first stretches out and disappears, leaving a line of small squiggles. The stretching continues, with the small squiggles disappearing as the interconnect between electrodes becomes taut.
“We call this ordered unraveling, ” Huang said. “And this is how we can produce a battery that stretches up to 300 per cent of its original size.”

Design properties
The stretching process is reversible, and the battery can be recharged wirelessly. The battery’s design allows for the integration of stretchable, inductive coils to enable charging through an external source but without the need for a physical connection.
Huang, Rogers and their teams found the battery capable of 20 cycles of recharging with little loss in capacity. The system they report in the paper consists of a square array of 100 electrode disks, electrically connected in parallel.
Huang’s research was supported by the Initiative for Sustainability and Energy at Northwestern University (ISEN).
The paper is titled “Stretchable batteries with self-similar serpentine interconnects and integrated wireless recharging systems.”
Watch a video demonstration of the battery below:

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