Table of Content

Table of Contents

1.0 Executive Dashboard
1.1 Research Scope – Foreseeing Challenges and Solutions
1.2 Analysis Framework
1.3 Research Methodology

2.0 Growth Environment Overview
2.1 Technology Definition and Indications
2.2 Technology Comparison – Cobalt Based and Cobalt-free Batteries
2.3 Manganese and Nickel as a Substitute for Cobalt in Major Cobalt Free battery Chemistries
2.4 Thermal Stability and Limited Cycle Life Hindering the Adoption of Cobalt Free Battery Chemistries
2.5 Cobalt-free Batteries Enabling a Sustainable Future for EV Growth
2.6 Industry Moving towards Cobalt-free Batteries due to Challenges in Cobalt Supply Chain
2.7 Prominent Movers and Shakers of the Cobalt-Free Battery Sector
2.7 Prominent Movers and Shakers of the Cobalt-Free Battery Sector
2.8 Regulatory Support Driving Innovations and Adoption of Cobalt Free Chemistries

3.0 Companies to Action
3.1 Cobalt-free Battery Based on Materials Derived from Sea Water
3.1.1 Enabling Cost effective Battery Design Utilizing Iodine as a Cathode Element
3.2 Cobalt Free Lithium-ion Battery Based on High Nickel Content
3.2.1 Aluminium as a Cobalt Replacement Enabling Cost Effective Cobalt Free battery
3.3 Metal Fluorides in Solid Polymer Electrolyte: Enabling Cobalt Free Batteries
3.3.1 Iron Fluoride as a Cobalt Replacement Enabling Higher Energy Density, Ideal for EV Applications
3.4 Lithium Nickel Manganese Oxide (LNMO) Cathode Material Enabling Cobalt-free Battery
3.4.1 Cost Effective Manufacturing, High Energy Density, and Fast Charging Capabilities Driving Advancements in LNMO Batteries
3.5 Nanomaterial Composites Based Cobalt Free Battery
3.5.1 Quick Charging Capability and High Energy Density Driving Research in Nanomaterial Composite Based Batteries
3.6 Fast Charging Battery Based on Organic Compounds and Nanomaterials
3.7 Battery for EV Applications without Nickel, Cobalt, Aluminum, and Magnesium

4.0 Growth Opportunities
4.1 Advanced Technologies Paving the Way Ahead for Cobalt Free Battery Chemistries
4.2 North America & Europe Leading R&D investments for Advancement in Cobalt Free Battery Technologies
4.3 Integration Within the Battery Supply Chain Required for Streamlining Advancements in Cobalt Free Battery Landscape

5.0 Technology and IP - Landscape
5.1 China Leads Research & Development Activity in Cobalt-free Batteries

6.0 Key Contacts
6.1 Industry Contacts
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