Viruses Might Help Make Better Batteries
How can you make tiny, flexible materials that conduct electricity more efficiently than today’s batteries? You can engineer expensive, high-density carbon nanotubes. Or you can use the original nanobots, made by nature itself: viruses.
An MIT group recently described an advance that brings us closer to the day when freaky, half-alive nanomachines assemble batteries you could wear.
The research comes out of Angela Belcher’s Biomolecular Materials Group at MIT, which has been working on this project since 1994. They use bacteriophages to build — really, evolve — hyperdense materials from ionic particles, the same way bone, shells, chalk, and glass were made in the Cambrian period.
This week Mark Allen, a postdoc in the group, outlined the use of a new cathode made with iron flouride. Allen also described some of the potential applications of this technology. The high flexibility of the nanostructured material means you can weave it into any fabric or pour it into any shape, including:
Wearable battery packs for soliders, first responders, and civilians;
Tiny rechargable batteries for portable electronics including smart phones, laptops, and GPS;
Unmanned aerial vehicles, which require lightweight, long-lasting power sources.
In 2008, the group published an article in the Proceedings of the National Academy of Sciences outlining how this would work. Viruses create a template, assembling nanowires out of cobalt oxide. These are built on top of a synthetic electrolytic polymer, called a polyelectrolyte. (Natural polyelectrolytes include protein polypeptides and DNA.) Stamp this electrode onto a platinum current collector, and:
The resulting electrode arrays exhibit full electrochemical functionality. This versatile approach for fabricating and positioning electrodes may provide greater flexibility for implementing advanced battery designs such as those with interdigitated microelectrodes or 3D architectures.
A UAV is going to provide the first real-world test of the scaled-up batteries in action. Other applications we’ve seen touted for wearable electronics include wearable solar cells and electronic devices that stand up to repeat laundering. So much to look forward to.
Fuente: Gadget Lab
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