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Battery Research – Electric Convergence http://3dskimaps.net Developments in electric technologies Wed, 28 Nov 2018 05:56:34 +0000 en hourly 1 https://wordpress.org/?v=5.8.13 Norwegian nanoscientists reveal a battery boasting five times conventional energy capacity http://3dskimaps.net/battery-research/norwegian-nanoscientists-reveal-a-battery-boasting-five-times-conventional-energy-capacity/?utm_source=rss&utm_medium=rss&utm_campaign=norwegian-nanoscientists-reveal-a-battery-boasting-five-times-conventional-energy-capacity Fri, 13 Jul 2018 21:28:24 +0000 http://electricconvergence.com/?p=136 Actually what they have now “only” goes to 3-5 times, but has the potential to go to 10 times. They found a way to include silicon in the graphite in the anode.

 

https://phys.org/news/2018-04-silicon-storage-material-batteries-future.html

]]> UT Austin researchers discover anode materials that can double lithium battery charge capacity http://3dskimaps.net/battery-research/ut-austin-researchers-discover-anode-materials-that-can-double-lithium-battery-charge-capacity/?utm_source=rss&utm_medium=rss&utm_campaign=ut-austin-researchers-discover-anode-materials-that-can-double-lithium-battery-charge-capacity Thu, 02 Nov 2017 05:12:34 +0000 http://electricconvergence.com/?p=72 Improved and less expensive anodes can be made from mechanical rolling, which is much easier than the usual slurry coating process.

“The eutectic microstructure forms naturally because of thermodynamics,” Kreder said. “Then, you can reduce the microstructure by rolling it, which is an extraordinarily cheap step to convert a microstructure into a nanostructure.”

Interdigitated Eutectic Alloys for lithium battery anodes

]]> Boosting lithium battery capacity with disordered materials – Lawrence Berkeley National Laboratory http://3dskimaps.net/battery-research/boosting-lithium-battery-capacity-with-disordered-materials-lawrence-berkeley-national-laboratory/?utm_source=rss&utm_medium=rss&utm_campaign=boosting-lithium-battery-capacity-with-disordered-materials-lawrence-berkeley-national-laboratory Thu, 02 Nov 2017 05:04:10 +0000 http://electricconvergence.com/?p=70 LBNL scientists have made a discovery that helps them discover new disordered materials that could increase lithium battery capacity.

“Discovering new disordered materials has been mostly driven by trial-and-error, and by relying on human intuition,” explains Alexander Urban, lead author of the paper ‘The electronic structure origin of cation disorder in transition metal-oxides. “Now we have for the first time identified a simple design criterion to predict novel disordered compositions. The new understanding establishes a relationship between the chemical species, local distortions of the crystal structure, and the tendency to form disordered phases.”

Disordered cathode materials from PV Magazine

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