We use the best available technologies to solve urging problems faced by humanity today.
We guarantee a brighter future for humanity by creating long term innovation & development.
We improve life quality through clever technologies.
By using durable materials, quality engineering, and updatable technology that guarantees our vehicles last for decades.
By proving that ESG economies produce long term value for investors. We create value by thinking big. We promote clean mobility that works.
By accelerating the technology race in the mobility industry and beyond. We push the industry to new limits. We build up positive change.
We asked ourselves three simple questions and came out with cost-effective and creative solutions to solve the problems faced by the industry today:
• What problems can we solve to contribute to a more sustainable future?
• How can we improve people's wellbeing?
• How can we combine our passion and create value
that works?
Figuring out those answers lead us to integrate solutions that include the use of supermaterials, new battery technologies, more efficient engines, segmenting our models to funcional luxury, and targeting specific demographics. Our vehicles have specifically engineered supermaterials out of a proprietary sandwich combination of carbon-fiber composites combined with Graphene and Aramid fibers to produce car components that are stronger, lighter, stiffer, and have better impact-resistant properties.
By using supermaterials we heavily improve safety standards, make our vehicles lighter, and avoid the dependence on traditional supply chains of materials like steel and aluminum. The battery booster we integrate into our cars extends the battery range in up to 60% without creating financial drawbacks. This game-changing technology allows for saving battery costs without sacrificing range and also gives us a big technological advantage by allowing us to extend our range without adding more battery cells than the competition. Permanent magnet synchronous motors have the advantages of simple structure, small size, high efficiency, and high power factor, all attributes that resonate with our philosophy of making the best cars with the highest efficiency ratios. Our PMSM motors are designed with a proprietary array of magnets that make them even more efficient and powerful.
Two robust models, an 8-seater and a 5-seater overlander ready to tackle the toughest landscapes and roads in comfort, luxury, and safety. By designing an all-electric four-wheel-drive SUV from scratch, a new platform with exceptional off- road performance was born. Both models have a perfect 50/50 weight distribution and exceptional adjustable ride height ranging from 185mm to 480mm.
Full carbon-fiber, graphene, aramid composite materials used throughout the body, chassis, and functional parts. Extremely high strength to weight ratio and impact-defiant body that is durable, stiff, and resistant to impact, temperature, fire, and wear. A 2-3-3 stadium seat configuration accommodates 8 adults with extreme comfort and provides brilliant views being seen from the large windows. The short 5-seater version provides the same attributes accommodating 5 adults with ease. 2020mm wide, and long wheel-bases ensure plenty of interior space and an easy ride plus the convenience of a two piece tailgate to ensure optimum functionality.
Highly versatile multi-purpose platform with structural design engineered to last. ADAS and steer-by-wire ready. Battery moduled into platform with easy-swap system to replace low-performing batteries. Battery management system (BMS) with integrated AI. Dual-motor electric drivetrains that extend your driving range to new limits with smart-wheel drive. All-round and adaptive air- suspension systems. Performance brakes. Adaptive battery pack configuration with 80kw/h, 120kw/h, 160kw/h, and 200kw/h as standard options.
Intuitive commands to enhance your driving experience. Functional knobs and buttons. Smart steering wheel and integrated touchscreen dash. Roomy. Comfortable. Practical. A front-to-rear sunroof made of impact-resistant composites offer great panoramic views, sunshine, starlight, and lots of fresh air for the passengers to enjoy their ride.
Two permanent magnet synchronous motors known for their excellent power density and torque sit on the front and rear drivetrains to produce extreme performance and reliability that match any obstacle.
They offer constant torque regardless of how much the speed of the rotor is and astonishing 650-1100hp. The power density of these motors is significantly higher than that of induction motors, they have a much higher efficiency rate, and require virtually no maintenance.
It’s in our nature to change the game. With our TRL2-engine prototype we promise to disrupt the entire industry, again. We push, we change, we conquer.
LiFePO4 have a long life cycle and can deliver an excellent discharge pulse rate in a short time at constant discharge voltage as compared to other batteries. These batteries can withstand extreme weather conditions and temperatures remaining cool at high temperatures due to their safe iron phosphate chemistry. They are less prone to degradation and don’t have thermal runaways or explode when they overheat or overcharge. They are non-contaminating and non-toxic and are less costly than other lithium-ion and Lithium polymer batteries. LFP batteries are compact in size and have high power density, are lightweight, and have no memory effect. LFP batteries don’t require priming, and less maintenance is required for their care. Combined with our fiber-composite battery housing integrated to our chassis and platform, LFP batteries are our top choice for efficiency and safety.
Our vehicles are fully made out of a proprietary combination of carbon-fiber composites combined with Graphene and Aramid-fibers to produce car components with strong, stiff, impact-resistant, light, and efficient properties. Graphene is used as a coating allowing for better distribution of impact force and for excellent heat-dissipation across several car parts, protecting the inner materials from thermal degradation. Carbon-fiber and Aramid composites are added and combined across the car cockpit and chassis structures reaching new safety standards for our passengers. Stanene is being tested to be included as a superconductor for our vehicle electronics and batteries. Our mission is our motto: we truly push the industry to new limits.
May be the most amazing, abundant, and versatile substance available to mankind. In simple terms, Graphene is a one-atom-thick layer of carbon atoms arranged in a hexagonal lattice. Due to the strength of its 0.142 Nm-long carbon bonds, graphene is the strongest material ever discovered, with an ultimate tensile strength of 130 gigapascals compared to 400,000,000 for A36 structural steel, or 375,700,000 for Aramid. Not only is graphene extraordinarily strong, it is also very light (0.77milligrams per square meter) and elastic, being able to retain its initial size after strain.
Like the much better known Graphene, Stanene is also made of a single layer of atoms. But instead of carbon, Stanene is made of tin, and this makes all the difference in allowing stanene to possibly do what even extraordinaire Graphene cannot: conduct electricity with 100 percent efficiency.
Carbon fiber is a material consisting of thin, strong crystalline filaments of carbon, essentially carbon atoms bonded together in long chains. The fibers are extremely stiff, strong, and light, and are used in many processes to create excellent structural materials. Carbon fiber offers a variety of benefits including high stiffness and stiffness-to-weight ratio, high tensile strength and strength-to-weight ratio, high-temperature tolerance, low thermal expansion, and high chemical resistance. Other advantages of carbon fiber include: the ability to produce parts in almost any desired shape, its corrosion resistance and thus longevity, and its long-lasting fatigue strength.
Aramid, also known as Kevlar, is a very strong synthetic polymer with a high degree of particle ordering, which is more than five times lighter than steel and has a very high tensile strength of as much as 3,620 MPa. It takes twice the force of carbon fiber and as much as four times that of steel to break aramid fibers making it an ideal component of fiber composite parts that need a high degree of impact resistance, crack resistance, and energy absorption (vibration).
Saving resources and thinking sustainable is a very necessity for a planet that is under huge distress. We create high-end quality electric vehicles without compromise. We use cutting-edge materials that defy reality. We engineer to perform and challenge the test of time. We efficiently extend the life-cycle of our vehicles and prioritize sustainable function instead of resource-sucking planned obsolescence. We make it our priority to benchmark against excellence. With functional luxury at its core we truly transition mobility into the future. We improve, we create, we solve. We believe in our dream of driving the industry to new limits and creating value by thinking big. Our ambition is global and we are committed to make personal mobility reach new standards. This is just the beginning. We breathe our mission statement. We will truly transition mobility into the future.
If you are interested in knowing more, get in touch:
