The U.S. lacks enough domestically supplied materials to keep up with consumer demand, so innovations in battery chemistry, materials substitution and recycling will be key to the transition to...

The U.S. lacks enough domestically supplied materials to keep up with consumer demand, so innovations in battery chemistry, materials substitution and recycling will be key to the transition to EVs, according to a recent Cox Automotive Mobility white paper.

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While vehicle electrification makes progress, the lingering effects of the pandemic, the soaring cost of raw materials and geopolitical challenges have contributed to supply chain disruptions that have slowed widespread electric vehicles (EV) growth in the U.S.

This perfect storm of bottlenecks outlined in Cox Automotive Mobility’s latest EV white paper titled – “Supply Chain Challenges Impacting Electric Vehicle Adoption” – is driving automakers to reshape their EV businesses and exert greater control over EV battery composition, manufacturing and recycling to secure the resources needed for widespread electrification.

EVs Now Face Supply Challenges and Transitions

Cox Automotive Mobility’s detailed EV white paper offers the company’s perspective on the following core themes:

  • State of EV Adoption: Americans are buying EVs at a record pace despite rising prices and long waits for delivery. The fleet industry is also taking note with fleet operators highly motivated to replace their gas-powered fleets with EVs to achieve sustainability goals, drive efficiency and reduce total cost of ownership.
  • Price Parity in Driving Adoption: The electric segment has been hit by the tide of inflation affecting the overall auto industry since the spring of 2021. Tax incentives available as part of the Inflation Reduction Act of 2022 will be critical to consumer adoption, helping offset the cost of pricey EVs.
  • Supply Chain Constraints Threaten EV Growth: Global computer chip and material shortages are limiting production, raising the price of new and used vehicles, and contributing to long waits to buy new EV models.
  • Building a Robust EV Supply Chain in the U.S.: The U.S. has a vulnerable EV supply chain heavily reliant on imports for semiconductor chips, raw materials and EV batteries. The country is in a sprint to produce its own EV components to increase economic competitiveness and energy independence.
  • Role of Technology: The U.S. doesn’t have enough domestically supplied materials to keep up with consumer demand, so innovations in battery chemistry, materials substitution and recycling will be key to the transition to EVs.

“This convergence of factors shines an even brighter light on the importance of end-to-end EV battery lifecycle management,” said Lea Malloy, assistant vice president of EV battery solutions for Cox Automotive Mobility, in a news release. “Coupled with government policy support, EV battery first life extension is paving the way for meaningful progress in protecting the planet while accelerating the uptake of EVs in a challenging environment.”

Taking Charge of the Battery Life to Sustain More EV Usage

Cox Automotive Mobility and Spiers New Technologies are extending the EV battery life cycle through a closed loop system that reduces the environmental impact of metals mining and supports the extension of EV battery first lives and end-of-life reuse and recovery treatments.

Information: Watch video on EV battery options

Originally posted on Charged Fleet

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