Scalable nanotechnology of processing Lithium based oxide solid electrolyte material for EV Battery
ABM team has developed patented nanotechnology which we believe is the turnkey to the next generation EV battery. ABM Lithium Oxide-based Solid Electrolyte is proven 100 times smaller particle size nanomaterials than any currently available materials in the market. Outstanding performance from particle size, purity to dispersion performance.
Direct Conversion Process (DCP™)
ACF's patented "Direct Conversion Process", DCP™ enhances the performance utility of carbon fiber materials by converting (not coating) a small portion of the outer layer of the base carbon fiber with a variety of metallic carbides like SiC, TaC, ZrC, HfC, applicable to the aerospace, space, nuclear, and energy, markets.
Cirrus PolyShield™: Novel Surface-initiated Polymer Protection
Cirrus PolyShield™ technology offers life extension and reduced R&M costs for metallic components exposed to corrosive environments. Uniquely, our patented polymer coating fuses directly with the metal substrate, via a patented surface-initiated electrochemical polymerisation process, creating a clear, durable corrosion barrier ready for post-processing.
CleanMag: A novel material solution for more efficient on-board battery chargers and power converters in EVs
CleanMag is a novel magnetic materials technology for smaller, lighter, and more efficient power electronics. It is a novel material that enables higher efficiency power converters and transformers, consumer hardware, robotics and manufacturing, solar and wind turbines, and more. The CleanMag magnetic cores are 20% more efficient and 50% smaller.
Industry-level Reactive Neural Network Potentials
AI tool for materials science and research allows a thousand times faster quantum calculations while maintaining the desired accuracy. Leveraging the power of neural network potentials with our unique learning workflow allows accurate simulations on timescales orders of magnitudes larger than before.
Materials Research as a Service: supercharge materials development by replacing trial and error with data
Finding a new material is a challenge in many industries. Months to years pass from first idea to product. Most materials are still discovered in the lab by trial and error. At ExoMatter, we have a better idea. We developed algorithms to find materials tailored to an industrial application.
An alternative purification process to produce graphite & graphene anode powder from natural graphite
Technology is a chemical process to purify natural graphite/graphene to anode grade purity (+99.95%). This process allows to remove major impurities without consumption of hazardous reagents. The process is envisioned to reduce effluents and overall reagent consumption compared to conventional approaches, thus reducing operating cost and environmental impact.
An innovative route to recover lithium and other metals from geothermal brines
The technology is a disruptive chemical process aiming to maximize the geothermal brines Lithium extraction value by valorizing other by-products. The process perceived as a source of lithium, a desalination method, and a CO2 storage possibility in saline formations which collectively improve the economy and reduce associated net GHG emission.
Sustainable And Performance-Advantaged Plastics Made From CO2
CO2 is rarely used as a feedstock for chemical production because most CO2 technologies suffer from large energy and material losses. Our core innovation is a CO2 utilization method that improves manufacturing efficiency by eliminating process steps. We are creating CO2 recycling technologies to produce sustainable chemicals at low cost.
Helios™PEEK 2005 for custom, reliable aerospace tools
Roboze Helios™PEEK 2005 is a technopolymer that includes short ceramic fibers integrated in the matrix. It has excellent thermal stability properties and thanks to its PEEK matrix, Helios™PEEK 2005 is resistant to all chemicals often seen in production lines such as oils and cooling agents.
Electrochemical Production of Carbon Nanotubes from Carbon Dioxide Pollution
SkyNano has developed a technology to capture and convert carbon dioxide from dilute streams into all-carbon nanomaterials including carbon nanotubes at costs competitive with lower-value carbon additives such as carbon black. Our products have useful applications in batteries, tires, composites, sensors, inks, coatings, etc.
Moisture-absorbing and sweat-releasing multilayer polylactic acid (PLA) fabric and manufacturing technology
A new type of moisture-absorbing and sweat-releasing multilayer fabric structure with enhanced moisture management and comfort and its manufacturing process using biodegradable polylactic acid (PLA) fibers and double weft knitting technology.
Novel Ferroelectric films for high-performance logic-in-memory electronics
Our innovation pioneers in tailoring the 2D ferroelectric structures by precise phase engineering, via defect and strain control. The large-area ferroelectric films and in-plane ferroelectric hetero-phase junctions can be applied in the semiconductor industry for high-performance logic-in-memory electronics.
High-quality perovskite films - Low-temperature formation of perovskite films using supercritical CO2
This invention describes a new process for producing high quality perovskite films for use in solar cells. The process reduces the post processing temperature and time required to produce the necessary film quality.
Continuous Aerosol Based Synthesis for Tungsten Bronze Particles - Scalable, Rapid, and Tunable Production of Crystalline Particles
This invention details a scalable and fast process to produce crystalline tungsten bronze particles in controllable sizes and compositions. The particles are capable of the NIR shielding while having good transmission in the visible light range.