Growth Opportunities in Solid-state Batteries in Electric Vehicles, 2024‒2030
Technological Advancements, Market Trends, and Future Roadmap for Sustainable EV Power Solutions
Solid-state batteries (SSBs) represent a transformative leap in battery technology, relying on innovative materials, advanced manufacturing, and strategic collaborations. Concerted efforts in R&D and strategic partnerships are accelerating the path toward commercialization, promising a significant impact on the global EV market.
This study summarizes the specialties and obstacles and highlights the potential SSBs wield in the broader context of electric vehicles (EVs). In addition to outlining the evolution and advances in SSB technology, it discusses how new materials development enables commercialization, creates opportunities, and structures the global EV landscape. SSBs have a lower environmental impact than lithium-ion (Li-ion) batteries while offering higher power and lower manufacturing costs. In addition, they are more cost-effective, energy-dense, and weigh less.
Despite these factors driving the adoption of SSBs, the segment has significant technological and engineering bottlenecks, with thermal management of some polyolefins-ethylene products as one of the main barriers inhibiting mass production. Extensive cost analysis suggests that SSBs deliver a high level of safety and energy efficiency; however, manufacturing costs remain high because of shell material prices. Nonetheless, costs are expected to fall in the future, making SSBs a more compelling value proposition.
The study also covers important mergers and partnerships among major players, including Toyota, Volkswagen, and Hyundai. Such collaborations are key in advancing the development of SSBs and realizing their full potential for next-gen EV use. These partnerships champion battery performance for improved vehicle range and charging speeds.
The global SSB market is poised to experience exponential growth heightened by growing patent activity and financial investments from OEMs. While battery chemistries move forward and consolidated manufacturing clusters emerge, SSBs will become indispensable to moving electric mobility to the next stage. This transition further highlights the competitive landscape, with legacy automakers and upstarts jockeying for dominance in advanced battery technology.
- Strategic Imperatives
- Why is it Increasingly Difficult to Grow?
- The Strategic Imperative™
- The Impact of the Top 3 Strategic Imperatives on the Solid-state Battery (SSB) Market
- Growth Opportunity Analysis
- Scope of Analysis
- Research Aims and Objectives
- Growth Environment
- Development of SSBs
- Key SSB Adoption Trends in EVs
- Major Challenges to SSB Technology Development
- Benefits of SSBs for Electric Mobility
- Challenges in Adopting SSBs for Electric Mobility
- Li-ion Batteries vs SSBs—A Comparison
- SSB Costing
- Future SSB Costing
- Mergers for SSBs
- Key Value Propositions of SSBs in EVs
- Technology Roadmap for Evolving Battery Chemistries
- SSB Manufacturing Clusters
- SSB Technology and Density
- Key OEMs’ Adoption of SSBs
- OEM Adoption of Existing vs Future Chemistries
- Specific Energy of Battery Energy Systems by Device, Global, 2023
- SSB Global Market Size 2018–2030e*
- Patent Activity
- SSB Patent Activity by Geography
- Competitive Landscape of SSB Patent Activity
- SSB Companies
- QuantumScape
- Solid Power
- Blue Solutions
- Contemporary Amperex Technology Co., Limited (CATL)
- Growth Opportunity Universe
- Growth Opportunity 1: Mass Manufacturing to Drive SSB Technology Implementation
- Growth Opportunity 2: R&D Focus Areas
- Growth Opportunity 3: Regulatory and Standardization Focus Areas
- Appendix & Next Steps
- Benefits and Impacts of Growth Opportunities
- Next Steps
- List of Exhibits
- Legal Disclaimer
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