Energy - Advanced and Next-Generation Li-ion Batteries

The typical Li-ion battery will be composed of a graphite anode, an organic liquid-based electrolyte, and a cathode choice of lithium cobalt oxide, nickel-cobalt-manganese/aluminum oxide (NMC/NCA) or lithium iron phosphate (LFP). Advanced Li-ion refers to silicon and Li-metal anodes, alternative and solid-electrolytes, high-Ni and high-voltage cathodes and other cell design factors. Driven by the burgeoning opportunity for supplying the electric vehicle market, companies are striving to develop, understand, and commercialize new technologies to maintain and grow their share of the battery market.

For example, silicon and Li-metal anodes can offer significant improvements to energy density, but they serve as a reminder of the trade-offs often required in improving one area of battery performance, with cycle life and manufacturability being challenges to adoption. As a result, developers and manufacturers are keen to learn about and design new chemistries on a mass scale to be implemented effectively into EVs.

Contact our Energy team at research@IDTechEx.com for more detail on the lithium-ion battery industry and how a subscription can provide the information needed to solve problems and create opportunities.

An Energy Market Intelligence Subscription includes access to all of IDTechEx's data and analysis on topics related to Li-ion batteries, including:

  • Silicon anodes
  • Li-metal anodes
  • Advanced cathodes
  • Cell design
  • Solid-state batteries
  • Printed and flexible batteries
  • Carbon nanotubes
  • Graphene
  • Key players and start-ups

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