Virginia Tech team demonstrates green manufacturing method for Li-ion batteries - Green Car Congress
![Batteries that “drink” seawater could power long-range underwater vehicles | MIT News | Massachusetts Institute of Technology Batteries that “drink” seawater could power long-range underwater vehicles | MIT News | Massachusetts Institute of Technology](https://news.mit.edu/sites/default/files/styles/news_article__image_gallery/public/images/201706/MIT-OpenWater-2.jpg?itok=H6OHyYZQ)
Batteries that “drink” seawater could power long-range underwater vehicles | MIT News | Massachusetts Institute of Technology
![Chris Hollis on X: "Lithium-ion battery (36V, 27900mAh, 1000Wh) in thermal runaway underwater, complete with underwater fireballs! FRS dams were the only quick option to submerge the batteries involved in this incident. Chris Hollis on X: "Lithium-ion battery (36V, 27900mAh, 1000Wh) in thermal runaway underwater, complete with underwater fireballs! FRS dams were the only quick option to submerge the batteries involved in this incident.](https://pbs.twimg.com/ext_tw_video_thumb/1454381313000185856/pu/img/9UBUNXOnYsjZXPJG.jpg)
Chris Hollis on X: "Lithium-ion battery (36V, 27900mAh, 1000Wh) in thermal runaway underwater, complete with underwater fireballs! FRS dams were the only quick option to submerge the batteries involved in this incident.
A stable high-voltage lithium-ion battery realized by an in-built water scavenger - Energy & Environmental Science (RSC Publishing)
![Breakthrough Cuttable, Flexible, Submersible and Ballistic-Tested Lithium-Ion Battery Offers New Paradigm of Safety and Performance | Johns Hopkins University Applied Physics Laboratory Breakthrough Cuttable, Flexible, Submersible and Ballistic-Tested Lithium-Ion Battery Offers New Paradigm of Safety and Performance | Johns Hopkins University Applied Physics Laboratory](https://i.ytimg.com/vi/FJzGmfBmElw/maxresdefault.jpg)