The Elements of Innovation Discovered
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Electric vehicles are a major player in the decarbonization of the global transport sector. The industry is under pressure to seek the shortest, most profitable route to a renewable future, which puts its most expensive asset – battery production – at risk of potentially redistributing rather than neutralizing carbon usage. Nowhere is this pressure more acute than in the growing demand for a more sustainable and scalable battery lifecycle. Due to roughly 15 years of ope...
Adapting to a future of renewable energy, trendsetters are focusing on recycling lithium-ion batteries to create a more efficient repurposing of one of the most vital and important technologies of today and possibly the future. Lithium-ion batteries have been around for decades but as we see a forward push for an electric future, the demand has changed to necessity. Global climate concerns, finite resources and the sheer growth of technology that requires mobile energy all...
The sourcing of the cobalt, graphite, lithium, nickel and other materials that go into lithium-ion batteries, and what happens to these rechargeable cells when they are spent has many worried that electric vehicles may not be any better for the environment than their internal combustion counterparts. To address these concerns before they become a problem, the U.S. Department of Energy, Ford Motor Company and Everledger have teamed up on pilot programs to ensure EV and...
The challenge of reducing emissions from the mining industry as a whole is ongoing and especially vital for the metals needed in renewable power and de-carbonized transportation. Taking center stage in this push, the electric vehicle space is being tasked to evaluate the overall environmental impact of EV battery life cycles. Scalable solutions are needed by 2030 for the anticipated first wave of batteries soon reaching end-of-life to keep them out of the toxic waste stream....