U.S. 5X Battery Research Sets Three Paths For Replacing Lithium 172
dcblogs writes "One year ago this month, the U.S. Department of Energy announced a $120 million plan to develop a technology capable of radically extending battery life. 'We want to change the game, basically,' said George Crabtree, a senior scientist at Argonne National Laboratory and a physics professor who is leading the effort. The goal is to develop a battery that can deliver five times the performance, measured in energy density, that's also five times cheaper, and do it in five years. They are looking at three research areas. Researchers are considering replacing the lithium with magnesium that has two charges, or aluminum, which has three charges. Another approach investigates replacing the intercalation step with a true chemical reaction. A third approach is the use of liquids to replace crystalline anodes and cathodes, which opens up more space for working ions."
German battery vunding iz superior (Score:5, Interesting)
The real (boring) article will be about a German factory employing 8,000 people that is selling 3 billion in home batteries per year that work quite well and provide good value to their customers.
Re:Carbon Nanotubes (Score:5, Interesting)
Nature has always gone with calcium as the most energy efficient electrical energy medium, a deeper look there especially in nano structures would also be worthwhile.
Tough goals, especially in 5 years (Score:5, Interesting)
I am a battery scientist, and while I think that Argonne is one of the places where great work is done, they have set very ambitious goals for themselves.
1) Replacing Li with Mg is a lovely idea, but currently there is no fully stable electrolyte and as far as I know nobody has good candidates for electrode materials. Don't even get me started on Al.
2) Lithium-air batteries have been debated to death also here on /.. The current status is again that there seems to be no stable electrolyte, no clear idea of what exactly happens, and if we factor in the weight and complexity of adding various components to the battery assembly to make a real device out of it, the great theoretical energy density of Li-O2 is reduced to Li-ion levels, if not even less.
3) The liquid slurry electrode is an interesting concept which at least recycles materials that are available and known to be working. This is more of an engineering problem than a scientific one, and could see quick advancement in 5 years.
I hope the community as a whole will be able to find the breakthrough to finally have people stop cursing batteries.
Batteries: you hate them since 150 years!