Researchers at the International Center for Materials Nanoarchitectonics (WPI-MANA), a unit of the National Institute for Materials Science (NIMS) in Japan, have created a material that could power a new generation of wearable electronic mobile devices.
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The finding is another step toward realizing what could be numerous potential applications for flexible mechanoelectrical devices in self-powered wearable electronics, including healthcare sensors such as pacemakers, surgery tools, muscle-driven energy harvesters, communications devices and smart textiles, says a press release.
The new “liquid electret” material has the mechanoelectrical and electroacoustic functions, as well as the flexibility and stretchability, that would be crucial in a reliable and long-lasting power source for such devices.
Electrets are key components for powering mechanoelectrical devices as they behave like a battery or as an electrical counterpart of a permanent magnet.
Electrets used in such devices are generally solid films composed of insulating polymeric materials. However, a liquid electret material would be a better solution — it would be flexible and stretchable, and greatly enhance the usability of the devices they power. In addition, liquids offer fluidity with fast diffusion of molecules, easy processing, lack of defects and high deformability — all requirements for flexible/stretchable device technologies.
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The MANA researchers developed a new method of producing electrets, using a shielded pi-unit of liquid porphyrins with trapped charge to create their liquid electret, which they fabricated to demonstrate its mechanoelectrical and electroacoustic functions. They shielded the pi-core with hydrophobic and insulating bulky-alkyl side chains, enabling the liquid porphyrins to store an electric charge.
This research was carried out by Takashi Nakanishi (Group Leader of Frontier Molecules Group, MANA, NIMS) and his collaborators.
