![]() I suspect such technology will be in widespread use within a few years.Much like the British of the original game, the British Forces have an emphasis on versatile and well-trained infantry, supported by powerful artillery and highly durable but slow tanks. The question now is not if such technology will eventually work, but when. Anyone recall exploding phones?Īt triple the range, electric becomes a viable option for a huge percentage of people. However, theoretical research is one thing and actual development that works without a hitch is another. I have always been in the group who believed electric would win out. Those interested in the technical details can find them on Joule: An In Vivo Formed Solid Electrolyte Surface Layer Enables Stable Plating of Li Metal. ![]() Researchers were able to solve both problems by adding a compound of phosphorus and sulfur to the electrolyte liquid carrying a charge within batteries. The second involved a reaction that creates corrosion and limits both how well the electrodes work and how long they last. The first involved a risk of fires and explosions caused by microscopic structural changes to the lithium metal during repeated charge-discharge cycles. In developing the technology, two challenges arose for researchers. ![]() “This will mean cheap, safe, long-lasting batteries that give people much more range in their electric vehicles,” said Pang. ![]() With increased energy density and therefore energy capacity, electric vehicles could see as much as three times the range on a single charge. The material has the potential to dramatically increase battery storage technology. Quanan Pang, who led the research while a PhD candidate at Waterloo, and his fellow researchers made a breakthrough involving the use of negative electrodes made of lithium metal. A battery breakthrough may be on the horizon if Canadian research pans out. ![]()
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