Successfully produced the world's longest flexible fiber battery, which can be woven into clothes, 3D printed into devices

Researchers have developed a rechargeable lithium-ion battery, whose remarkable feature is that it comes in the form of extremely long fibers that can even be woven into fabrics . This type of battery is expected to open a new door for wearable electronics and 3D printed batteries in almost any shape.

It could bring new possibilities to communications devices, sensors, and devices that can be worn like regular clothing, as well as devices where batteries can become part of the structure. bamboo.

In a proof-of-concept test, the team produced the world's longest flexible battery filament, up to 140 meters, to demonstrate that the material can be manufactured to arbitrary lengths. This study was carried out by three main authors, Tural Khudiyev (now an associate professor at the National University of Singapore), Jung Tae Lee (now a professor at Kyung Hee University) and Benjamin Grena (now working at the National University of Singapore). Apple), in addition to other associates, all of whom have been or are currently working at the Massachusetts Institute of Technology.

The researchers have previously succeeded in making fibers containing a variety of electronic components, including LEDs, optical sensors, and digital communication systems. Many of these fibers are wearable and washable, making them practical for use in household products, but all have so far relied on an external power source. Now, this fiber battery is also wearable/wearable and washable, which will allow such devices to operate completely independently.

Picture 1 of Successfully produced the world's longest flexible fiber battery, which can be woven into clothes, 3D printed into devices
The fiber battery continues to power the LED even after a partial cut, indicating that the fiber battery system has not lost its electrolyte and is not short-circuited.

The new fiber battery is manufactured using a battery gel and a standard spinning system and then heating it to just below the melting point. Material is sucked through a narrow hole to compress all parts to a fraction of their original diameter, while maintaining the arrangement of the parts.

There have been previous studies to create filament batteries, but they are built with important materials on the outside of the fiber, while the new battery will put it all inside the fiber, then cover it with a protective layer. external protection, thanks to which it is more stable and waterproof.

Being able to make a 140m-long battery strand shows that there is no limit to the length of this technology, the researchers say they can extend the length up to kilometers.

Picture 2 of Successfully produced the world's longest flexible fiber battery, which can be woven into clothes, 3D printed into devices
The thermospun fiber battery (right) is fire resistant thanks to gel electrodes and gel electrolyte, while the fiber battery with liquid electrolyte (left) instantly catches fire and explodes

In addition, fiber batteries are thinner and more flexible with a length-to-width ratio of up to a million, far exceeding other designs, which makes it possible to create pin-combining fabrics.

The 140 m long battery fiber has an energy storage capacity of 123 mAh, which can charge a smartwatch or phone. It is only a few hundred microns thick, thinner than any previous filament battery.

The team demonstrated integrating LEDs and Li-ion batteries in a single wire, and believe that more than three or four devices could be combined in such a small space in the future.

In addition to the form of microfibers incorporated into clothing, the battery material could also be used in 3D printing or custom shape systems to create solid objects, such as a cover that could provide power supply.

Picture 3 of Successfully produced the world's longest flexible fiber battery, which can be woven into clothes, 3D printed into devices
A toy submarine wrapped in battery thread

To demonstrate this ability, a toy submarine was wrapped in battery fibers to provide power. Incorporating power supplies into the construction of such devices can reduce their overall weight and thus improve their performance and range. If you want to create complex objects combined with batteries through 3D printing, this is the technology to help you do it. After printing, you don't need to add anything else because everything is already inside.

The team has applied for a patent and will continue to make further improvements in capacity and materials to improve efficiency. Such fiber batteries could be ready for commercial use within the next few years.