The Imperial College of London has initiated a three-year collaborative project to develop the Volvo 'Tomorrow Car' which will bear its battery as protective paneling. With the aim to manufacture such a vehicle with the appearance of a regular Volvo, the project is a revolutionary rung on the ascension to more energy-efficient automobiles.
Made of carbon fibers and polymer resin, the Volvo 'Tomorrow Car' armor is pliable but durable, making it easy to mold into a hood and doors. This light cladding will charge and store energy much more efficiently than conventional car batteries.
Battery-Clad Cruisers
The Volvo 'Tomorrow Car' Will Have a Charged Exoskeleton
Trend Themes
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Battery-powered Vehicles — Developing vehicles with battery-cladding presents an opportunity to revolutionize the automotive industry and create more energy-efficient solutions.
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Advanced Materials — Creating new materials, such as carbon fibers and polymer resin, can lead to durable and efficient solutions not only in the automotive industry but also in other industries.
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Energy Efficiency — Utilizing battery-cladding can be an innovative way to reduce energy consumption and promote sustainability in various sectors.
Industry Implications
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Automotive — The automotive industry should explore the potential of battery-cladding to create more energy-efficient and sustainable vehicles.
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Renewable Energy — The renewable energy industry can benefit from the development of efficient and durable battery-cladding for various applications.
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Consumer Electronics — The consumer electronics industry could incorporate battery-cladding into their products, creating more efficient and eco-friendly devices.