Information
Overview
- Summary
- Granode Materials, a company providing high-performance, eco-friendly anode technology for lithium-ion batteries. A solution contributing to increased battery efficiency and reduced carbon emissions through graphene-based silicon-graphite composite anode materials. A company committed to leading the advancement of sustainable energy storage technologies.Granode Materials, a company providing high-performance, eco-friendly anode technology for lithium-ion batteries. A solution contributing to increased battery efficiency and reduced carbon emissions through graphene-based silicon-graphite composite anode materials. A company committed to leading the advancement of sustainable energy storage technologies.
- Key Products/Technologies
- Development and supply of silicon-graphene composite anode material for lithium-ion batteries.Development and supply of silicon-graphene composite anode material for lithium-ion batteries.
- Possession of a manufacturing method for graphene-based silicon anode materials.Possession of a manufacturing method for graphene-based silicon anode materials.
- Application of optimal particle shape, size, and mixture processing technology for silicon-graphite.Application of optimal particle shape, size, and mixture processing technology for silicon-graphite.
- A unique approach to addressing particle pulverization issues in silicon-based anodes.A unique approach to addressing particle pulverization issues in silicon-based anodes.
- Utilization of grafted cage technology imparting mechanical strength, electrical conductivity, and chemical stability to silicon particles.Utilization of grafted cage technology imparting mechanical strength, electrical conductivity, and chemical stability to silicon particles.
- Development of patented methods for silicon nanostructure synthesis, including innovative RF plasma deposition.Development of patented methods for silicon nanostructure synthesis, including innovative RF plasma deposition.
- Ongoing pre-piloting and scaling project (CLIMB) for SynerGen silicon-anode technology.Ongoing pre-piloting and scaling project (CLIMB) for SynerGen silicon-anode technology.
- Participation in the 'Waste to Watt' project, converting coffee waste into battery materials.Participation in the 'Waste to Watt' project, converting coffee waste into battery materials.
- Core Advantages
- Environmental sustainability with up to 85% reduction in CO2 emissions by largely replacing graphite with silicon.Environmental sustainability with up to 85% reduction in CO2 emissions by largely replacing graphite with silicon.
- Enhanced battery efficiency by approximately 30% and energy density by up to 28%, enabling smaller, lighter, and longer-lasting batteries.Enhanced battery efficiency by approximately 30% and energy density by up to 28%, enabling smaller, lighter, and longer-lasting batteries.
- Cost-effectiveness, offering higher energy and longer cycle life at a lower price point.Cost-effectiveness, offering higher energy and longer cycle life at a lower price point.
- A strong intellectual property portfolio with 4 granted patents and 3 pending patent applications.A strong intellectual property portfolio with 4 granted patents and 3 pending patent applications.
- Strengthened supply chain security for the European battery industry through reliance on domestic raw materials.Strengthened supply chain security for the European battery industry through reliance on domestic raw materials.
- Team capability composed of highly educated and experienced professionals in nanomaterials, including numerous PhD holders.Team capability composed of highly educated and experienced professionals in nanomaterials, including numerous PhD holders.
- Strong funding and partnerships, including significant strategic grants from organizations like Vinnova and the Swedish Energy Agency.Strong funding and partnerships, including significant strategic grants from organizations like Vinnova and the Swedish Energy Agency.
- Board composition combining decades of pioneering research experience with extensive global industrial-scale expertise.Board composition combining decades of pioneering research experience with extensive global industrial-scale expertise.
- Target Industries
- Battery solutions for the electric vehicles (EVs) industry.Battery solutions for the electric vehicles (EVs) industry.
- Consumer electronics sectors such as mobile phones, vacuum cleaners, scooters, and bicycles.Consumer electronics sectors such as mobile phones, vacuum cleaners, scooters, and bicycles.
- Enhancement of efficiency in renewable energy storage systems.Enhancement of efficiency in renewable energy storage systems.
- Efforts to reduce the carbon footprint in transportation and other industrial sectors.Efforts to reduce the carbon footprint in transportation and other industrial sectors.
- Major Markets
- Sweden (headquarters location), Norway (potential production facility location), Finland (potential production facility location), Across Europe (aiming to strengthen battery industry supply chain)Sweden (headquarters location), Norway (potential production facility location), Finland (potential production facility location), Across Europe (aiming to strengthen battery industry supply chain)
- Certifications/Patents
- Four granted patents.Four granted patents.
- Three pending patent applications.Three pending patent applications.
- US patent application number US20220336798A1: related to silicon-nanographite aerogel-based anodes for batteries (assigned to Granode Materials AB).US patent application number US20220336798A1: related to silicon-nanographite aerogel-based anodes for batteries (assigned to Granode Materials AB).
- Awarded a major strategic grant of SEK 19.26 million from Vinnova for scaling up pilot production of silicon specialty anodes.Awarded a major strategic grant of SEK 19.26 million from Vinnova for scaling up pilot production of silicon specialty anodes.
- Received support from the Swedish Energy Agency for the 'Capacitive Silicon Anode Nanomaterials for Lithium-Ion Batteries – CLIMB' project.Received support from the Swedish Energy Agency for the 'Capacitive Silicon Anode Nanomaterials for Lithium-Ion Batteries – CLIMB' project.
- Possession of patented methods for silicon nanostructure synthesis, including innovative RF plasma deposition.Possession of patented methods for silicon nanostructure synthesis, including innovative RF plasma deposition.
Introduction
Location
Parkeringsplats, Lägerhyddsvägen 1, 752 37 Uppsala, Sweden
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