1. | EXECUTIVE SUMMARY |
1.1. | Key takeaways on silicon anodes |
1.2. | Key drivers for silicon anode adoption |
1.3. | Si-anode performance summary |
1.4. | Advanced Li-ion technology key takeaways |
1.5. | Li-ion performance and technology timeline |
1.6. | Key technology developments |
1.7. | Performance comparison by popular cell chemistries |
1.8. | Anode materials comparison |
1.9. | Multiple next-gen silicon anode material designs |
1.10. | Silicon-anode company technologies and performance |
1.11. | Impact of silicon capacity on NMC 811 cell cost |
1.12. | Battery technology comparison |
1.13. | Improvements to cell energy density and specific energy |
1.14. | Technology readiness level snapshot |
1.15. | Material opportunities from silicon anodes |
1.16. | Silicon anode value chain |
1.17. | Silicon anodes and solid-state batteries |
1.18. | Battery technologies - start-up activity |
1.19. | Battery technologies - start-up activity |
1.20. | Battery technologies - level of regional activity |
1.21. | Battery technology start-ups - regional activity |
1.22. | Advanced Li-ion developers |
1.23. | Commercial silicon anode market |
1.24. | Regional efforts in silicon anode development |
1.25. | Regional production outlook |
1.26. | Risks and challenges in new battery technology commercialisation |
1.27. | Risks and challenges in new battery technology commercialisation |
1.28. | Upside and downside for silicon anode market growth |
1.29. | Silicon anode production outlook by material type |
1.30. | Silicon anode production outlook (GWh) |
1.31. | Addressable markets for silicon anodes |
1.32. | Global forecast for silicon anodes by application (GWh, US$ Bn) |
1.33. | Global market forecast for silicon anodes by silicon type (GWh, US$ Bn) |
1.34. | Global forecast for silicon anodes by region (GWh, US$ Bn) |
1.35. | Global silicon anode share in battery electric cars (GWh) |
1.36. | Global silicon anode forecast in BEVs (kt, US$ billion) |
1.37. | Key silicon anode outlook narratives |
2. | INTRODUCTION TO LI-ION BATTERIES |
2.1. | Importance of Li-ion |
2.2. | Global EV Sales, 2011 - H1 2024 |
2.3. | What is a Li-ion battery? |
2.4. | Cathode materials - LCO and LFP |
2.5. | Cathode materials - NMC, NCA and LMO |
2.6. | Cathode performance comparison |
2.7. | Cathode comparisons |
2.8. | Benefits of high and ultra-high nickel NMC |
2.9. | Ultra-high nickel cathode timelines |
2.10. | LFP adoption in electric vehicles |
2.11. | Types of lithium-ion battery |
2.12. | Key battery performance metrics |
2.13. | Electrochemistry definitions 1 |
2.14. | Electrochemistry definitions 2 |
3. | SILICON ANODE TECHNOLOGIES |
3.1. | Silicon Anodes |
3.1.1. | Definitions |
3.1.2. | Anode materials discussion |
3.1.3. | Anode materials discussion |
3.1.4. | The promise of silicon |
3.1.5. | Alloy anode materials |
3.1.6. | Cell energy density increases with silicon content |
3.1.7. | Calculated cell energy density by silicon content and chemistry |
3.1.8. | The challenges of silicon anode material |
3.1.9. | Comparing silicon - a high-level overview |
3.1.10. | Strengths and weaknesses of anode materials |
3.1.11. | Silicon anodes offer significant benefits but also challenges |
3.1.12. | Solutions for silicon incorporation |
3.1.13. | Solutions for silicon incorporation |
3.1.14. | Key silicon anode material solutions |
3.1.15. | Silicon-carbon composite material designs |
3.1.16. | Silicon-graphite composites |
3.1.17. | Silicon deposition |
3.1.18. | Silicon oxide material designs |
3.1.19. | Nanostructured silicon |
3.1.20. | Silicon polymer and coating material designs |
3.1.21. | Manufacturing silicon anode material |
3.1.22. | Silicon anode patent holders |
3.1.23. | Key silicon anode IP holders |
3.1.24. | Top Si-anode patent assignee topics |
3.1.25. | Top 3 patent assignee Si-anode technology comparison |
3.1.26. | Value proposition of high silicon content anodes |
3.2. | Binders, additives, electrolytes |
3.2.1. | Binders |
3.2.2. | Binders - aqueous vs non-aqueous |
3.2.3. | Binders for silicon anodes |
3.2.4. | Example silicon anode binder systems from patents |
3.2.5. | Example silicon anode binder systems from patents |
3.2.6. | Example silicon anode binder systems |
3.2.7. | CNTs for silicon anodes |
3.2.8. | Introduction to Li-ion electrolytes |
3.2.9. | Electrolyte additives |
3.2.10. | Silicon anodes and solid-state batteries |
3.2.11. | SSB with silicon anode - Solid Power |
3.2.12. | SSB with silicon anode performance |
3.2.13. | Blue Current |
3.2.14. | WeLion semi-solid battery patent case study (1) |
3.2.15. | WeLion semi-solid battery patent case study (2) |
3.2.16. | Pre-lithiation techniques |
3.2.17. | Cathode pre-lithiation additives |
3.2.18. | Trends in copper foil thickness |
4. | PERFORMANCE OF SILICON ANODES |
4.1. | Key metrics for silicon anodes |
4.2. | Silicon-anode company technologies and performance |
4.3. | Cell performance specification examples |
4.4. | Cell specifications (2022-2030) |
4.5. | Comparing commercial cell chemistries |
4.6. | Example cell performance data |
4.7. | Example cell performance data |
4.8. | Example cell performance data |
4.9. | Example high-rate cell performance data |
4.10. | Example anode material and half-cell performance data |
4.11. | Commercial silicon anode specification |
4.12. | Daejoo SiO specifications |
4.13. | Silicon oxide example specifications |
4.14. | Si-C example product specifications |
4.15. | Silicon anode material - Wacker Chemie |
4.16. | Silicon anode material - Umicore |
4.17. | Silicon anode performance |
4.18. | Silicon anode calendar life |
4.19. | Silicon anode cost benefits |
4.20. | Silicon anode environmental benefits |
4.21. | Concluding remarks on Si-anode performance |
4.22. | Key takeaways on silicon anode technologies |
4.23. | Key takeaways on silicon anode technologies |
4.24. | Key takeaways on silicon anode technology |
4.25. | Application battery performance priorities |
5. | SILICON ANODE COST ANALYSIS |
5.1. | Li-ion battery contribution to device bill of materials |
5.2. | Cost and price of silicon anodes |
5.3. | Li-ion graphite anode prices |
5.4. | Silicon anode cost contribution analysis vs graphite |
5.5. | Silicon anode cell cost vs graphite |
5.6. | Impact of silicon anode price and content |
5.7. | Impact of silicon anode price and content |
5.8. | Cost analysis - impact of silicon anode capacity |
5.9. | Cost analysis of silicon in NMC cells |
5.10. | Impact of silicon anode price on LFP cell cost |
5.11. | Cost analysis - impact of silicon on LFP costs |
5.12. | Cost analysis of silicon anodes in NMC and LFP batteries |
5.13. | Impact of silicon capacity on NMC 811 cell cost |
6. | SILICON ANODE MARKET |
6.1. | Development timeline |
6.1.1. | 2022 silicon anode player developments |
6.1.2. | 2022 silicon anode player developments |
6.1.3. | 2023 silicon anode player developments |
6.1.4. | 2023 silicon anode player developments |
6.1.5. | Silicon deployment and recent developments |
6.1.6. | Current silicon anode use |
6.1.7. | Silicon anodes in electric vehicles |
6.1.8. | Notable players for silicon EV battery technology |
6.1.9. | Silicon and LFP |
6.1.10. | Silicon anodes for LFP - drivers and barriers |
6.1.11. | Silicon in consumer devices |
6.1.12. | Silicon anode deployment timeline |
6.1.13. | Silicon anode commercialisation milestones |
6.1.14. | Silicon anode commercialisation timeline |
6.1.15. | Example timelines |
6.1.16. | Discussion on commercialisation timelines |
6.2. | Market landscape |
6.2.1. | Silicon anode value chain |
6.2.2. | Strategic partnerships and agreements developing for silicon anode start-ups |
6.2.3. | Regional production outlook |
6.2.4. | Silicon anode companies |
6.2.5. | Commercial silicon anode market |
6.2.6. | Established company involvement in silicon anodes |
6.2.7. | Regional activity in silicon anodes - China |
6.2.8. | Regional activity in silicon anodes - Korea |
6.2.9. | Regional activity in silicon anodes - Asia-Pacific |
6.2.10. | Regional activity - North America and Europe |
6.2.11. | Silicon-anode pure-play companies |
6.2.12. | Silicon-anode pure-play companies |
6.2.13. | Funding for silicon anodes start-ups |
6.2.14. | Silicon anode start-ups - funding |
6.2.15. | Investors into silicon anode start-ups |
6.2.16. | Investors into silicon anode start-ups |
6.2.17. | Investors into silicon anode start-ups |
6.2.18. | Regional Si-anode activity |
6.2.19. | Growth in silicon anode start-ups |
6.3. | Production outlook |
6.3.1. | Silicon anode production plans |
6.3.2. | Silicon anode production outlook by company |
6.3.3. | Silicon anode production by region |
6.3.4. | Silicon anode production plans - start-ups |
6.3.5. | Pure-play silicon anode production outlook |
6.3.6. | Silicon anode production outlook (kt) |
6.3.7. | Silicon anode production outlook by material type |
6.3.8. | Silicon anode production outlook (GWh) |
6.3.9. | Remarks on advanced silicon anode commercialisation |
6.4. | Silicon Anode Player Profile Examples |
6.4.1. | IDTechEx silicon anode company index |
6.4.2. | Silicon anodes - critical comparison |
6.4.3. | Silicon anodes - critical comparison |
6.4.4. | AnteoTech background |
6.4.5. | AnteoTech silicon anode |
6.4.6. | Amprius' technology |
6.4.7. | Amprius technology performance |
6.4.8. | Blue Current background and technology |
6.4.9. | Blue Current performance |
6.4.10. | Blue Current patent examples |
6.4.11. | Daejoo Electronic Materials |
6.4.12. | E-magy |
6.4.13. | Enevate's technology |
6.4.14. | Enovix background and technology |
6.4.15. | Enovix cell performance |
6.4.16. | Forge Nano |
6.4.17. | Group14 Technologies |
6.4.18. | HPQ Silicon |
6.4.19. | LeydenJar Technologies overview |
6.4.20. | LeydenJar's technology |
6.4.21. | Ionblox |
6.4.22. | Ionblox cell performance examples |
6.4.23. | Nanomakers |
6.4.24. | Nanomakers nano silicon powder |
6.4.25. | Nexeon |
6.4.26. | Nexeon - patent examples |
6.4.27. | Paraclete |
6.4.28. | Sila Nano - background and technology |
6.4.29. | Silicon anode materials discussion |
6.4.30. | Concluding remarks on silicon anodes |
7. | FORECASTS |
7.1. | Total addressable markets |
7.2. | Power range of electrical and electronic devices |
7.3. | Addressable markets - Li-ion demand (GWh) |
7.4. | Addressable markets - electric car types |
7.5. | Global BEV chemistry share outlook |
7.6. | Forecast methodology |
7.7. | Price forecast |
7.8. | Global silicon anode share in battery electric cars (GWh) |
7.9. | Global silicon anode forecast in BEVs (GWh) |
7.10. | Global silicon anode forecast in BEVs (kt, US$ billion) |
7.11. | China silicon anode forecast in battery electric cars (GWh) |
7.12. | China silicon anode forecast in BEVs (kt, US$ billion) |
7.13. | USA silicon anode forecast in battery electric cars (GWh) |
7.14. | USA silicon anode forecast in BEVs (kt, US$ billion) |
7.15. | Europe silicon anode forecast in battery electric cars (GWh) |
7.16. | Europe silicon anode forecast in BEVs (kt, US$ billion) |
7.17. | Global forecast for silicon anodes in commercial electric vehicles (GWh) |
7.18. | Regional forecasts for silicon anodes in commercial electric vehicles (GWh) |
7.19. | Global forecast for silicon anode material in commercial electric vehicles (kt) |
7.20. | Regional forecast for silicon anode material in commercial electric vehicles (kt) |
7.21. | Global forecast for silicon anodes in commercial electric vehicles (US$ Bn) |
7.22. | Regional forecast for silicon anodes in commercial electric vehicles (US$ Bn) |
7.23. | Global forecast for silicon anodes in electronic devices (GWh) |
7.24. | Silicon anode forecast in electronic devices by region (GWh) |
7.25. | Global forecast for silicon anodes in electronic devices (kt) |
7.26. | Global forecast for silicon anodes in electronic devices (US$ Bn) |
7.27. | Global forecast for silicon anodes by application (GWh, US$ Bn) |
7.28. | Global market forecast for silicon anodes by silicon type (GWh, US$ Bn) |
7.29. | Global forecast for silicon anodes by region (GWh, US$ Bn) |
7.30. | Demand vs forecast outlook |
7.31. | Forecast for silicon anode data (GWh) |
7.32. | Forecast for silicon anode data (kt) |
7.33. | Global forecast for silicon anode data (US$ Bn) |
8. | COMPANY PROFILES |
8.1. | Alkegen |
8.2. | Amprius |
8.3. | Amprius Technologies |
8.4. | BestGraphene |
8.5. | Blue Current — Update |
8.6. | BTR New Material Group |
8.7. | CENS Materials |
8.8. | E-magy |
8.9. | Enovix |
8.10. | Forge Nano |
8.11. | GDI |
8.12. | Gotion |
8.13. | Group14 Technologies |
8.14. | Hansol Chemical |
8.15. | Ilika |
8.16. | Ionblox |
8.17. | Ionic Mineral Technologies |
8.18. | LeydenJar Technologies |
8.19. | Nanomakers |
8.20. | Nanoramic Laboratories |
8.21. | NanoRial |
8.22. | NIO (Battery) |
8.23. | OneD Battery Sciences |
8.24. | ProLogium |
8.25. | Samsung SDI (Battery) |
8.26. | Shanghai Putailai |
8.27. | Shanshan Technology |
8.28. | Sicona Battery |
8.29. | Sila Nanotechnologies |
8.30. | Solid Power |
8.31. | Storedot |
8.32. | StoreDot: Battery Development AI |