Will paper-thin batteries power tomorrow's smart phones?
Size is everything in today鈥檚 pocket electronics, and lithium-ion batteries are just too big for the gadgets of the future.
厂辞听, a startup in Alameda, Calif., has developed a new form factor for batteries, based on chemistry that once was thought to be suitable for batteries.
罢丑别听听is that they react unfavorably with oxygen and so must be coated with thick, heavy insulation. The problem with the current generation of thin-film lithium batteries is that, while they can be rechargeable, they鈥檙e still reactive; they don鈥檛 hold much power and are costly to make.
Finally, the problem with today鈥檚 printed batteries is that they can鈥檛 be recharged, though they鈥檙e inexpensive to make, hold more power and can be made with zinc, which is more stable than lithium.
Back when she was a graduate student at the University of California Berkeley, Imprint cofounder Christine Ho noticed that despite zinc鈥檚 benefits, it had a problem, too: its electrolytes, through which electrical current flows, are water-based and form branchlike structures during use known as dendrites, which can cause the battery to short circuit.
Ho, working with a researcher in Japan, developed a non-water-based electrolyte that not only doesn鈥檛 form dendrites, it鈥檚 far more stable and has a longer recharge life. The two then used a 3-D printer to produce microscopic zinc batteries. (Related Article:听)
Problem solved, according to Brooks Kincaid, Imprint鈥檚 other cofounder and president. He tells MIT Technology review that his company鈥檚 batteries include the best features of thin-film and printed batteries without the drawbacks of either.
And, Kincaid says, even manufacturing is easier and therefore less expensive than that used for conventional batteries. Zinc is more environmentally stable, he says, eliminating the need for the protective gear required for making oxygen-sensitive lithium batteries.
There was one more problem to be solved, though. According to Ho, there鈥檚 now no standard for measuring the relative flexibility of printed batteries, leaving the growing number of potential customers without a way to choose the right batteries for their needs.
So Imprint has built its own equipment for demonstrating the flexibility of its batteries over time. In torture tests, the current generation of flexible batteries failed after fewer than 1,000 bending cycles, she said. Only Imprint鈥檚 products survived so many flexes.
The technology seems so promising that the company is drawing investors like AME Cloud Ventures and Dow Chemical. Ho says the company is consulting with manufacturers to find ways of expanding the use of its batteries, such as in clothing as well as 鈥渨eird parts of your body, like your eye.鈥
Source:听
