Modern lithium batteries require a comprehensive approach to risk assessment and mitigation during product development, and a swift and systematic response when safety concerns arise in the field.
As part of an effort to reduce the risk of fires caused by lithium batteries in waste electrical and electronic equipment (WEEE), a consortium of industry groups has just issued a report that compiles a number ... Read More...
This article provides an overview of current standards applicable to rechargeable lithium and lithium-ion batteries.
Researchers at Columbia Engineering have devised a new method that could dramatically extend the lifespan of lithium metal batteries.
Scientists from MIT and China have found a new way to boost the energy capabilities of lithium batteries.
This article provides information on the changes found in Amendment 1 to the 6th Edition of UN 38.3, which details recommended testing to assess potential hazards associated with lithium-ion batteries in transit.
Researchers from Duke University and Texas State University have created a new method for 3D printing lithium ion batteries.
Scientists from the University of Illinois have found a way to measure particle movements inside of lithium ion batteries, thanks to x-ray technology.
Scientists from Arizona State University and Rice University have devised an ingenious solution for dealing with lithium dendrite growth.
Tesla has just turned on the world's largest lithium ion battery.