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Solar Powered Electric Vehicles Look Certain after New Discovery

Solar Powered Electric Vehicles

Solar powered electric vehicles more certain after the University of York, in the UK and NOVA University Lisbon’s breakthrough discovery.

Solar powered electric vehicles are looking more certain after the University of York, in the UK and NOVA University Lisbon, increased the ability of solar panels to absorb light by a stunning 125% by 3D geometry like a square block maze. This increases the diffraction rate meaning probability of light being absorbed. They promise lighter, thinner, cheaper, more flexible solar panels.

Dr. Christian Schuster from the University’s Department of Physics, enthuses, “In principle, we could deploy ten times more solar power for the same amount of absorber material: ten times thinner solar cells could enable a rapid expansion of photovoltaics, increase solar electricity production, and greatly reduce our carbon footprint,” (Journal Optica).

Progress with solar-powered and solar-assisted land vehicles is now so clear and compelling that it is certain that most land vehicles will incorporate this technology as an essential part of their battery electric powertrains.

Power greatly improved with versions working well on vehicle sides, from polycrystalline silicon on trucks to run refrigeration to power for services in camper vans. That has progressed to single crystal silicon panels on Detlieffs recreational vehicles and Sono Motors and Lightyear cars where it is even possible to propel some entirely in this way if you are gentle. Lightyear One family car gets 750 km with half the battery.  

This has led Hyundai to put a solar roof on its Sonata hybrid car procuring up to 10% of its power and soon solar on its battery electric cars. Land vehicles follow static solar with progress on many fronts. Agrivoltaics boosts rather than wrecks farming. Fraunhofer bifacial vertical panels work from both sides leaving ground open for agriculture. Soliculture translucent greenhouses make electricity while optimally filtering light for plant growth. Now translucent solar panels are promised on some Hyundai battery cars. Solar panels that open up when the vehicle stops have been demonstrated, as has sun-tracking solar on vehicles. ARC solar car chargers and large area land solar track the sun in one direction, increasing electricity produced by 30%. You can buy “flowers” that open their petals then follow the sun on land like a sunflower. Expect that on some vehicles.

There is much more. Very lightweight flexible photovoltaics on building facades is applied in no time with no strengthening needed, the copper indium gallium diselenide CIGS versions from Flisom, Manz and others now have efficiency close to crystalline silicon with flexible solar, some on truck roofing and aircraft wings – a multi-billion dollar business. In Brazil, exceptionally high temperature reduces output so Sunew have used organic photovoltaic film on trucks to avoid the problem. Much solar uses infrared so that can even go on the underside of some vehicles traveling on hot roads as costs continue to plummet.

The efficiency improvement is going much further as vehicles mimic wristwatches and satellites using lll-V compounds making even more electricity. Indeed, Toyota is trialing triple junction lll-V flexible solar on a car that will generate one kilowatt. Make that 10kW on a truck. Delightfully, the advances can be used together for even more power such as 3D geometry, multi-technology film grabbing all frequencies, sun-tracking and expanding.

Solar Panels using 3D Geometry

Bottom line is that robot shuttles, cars and smaller vehicles will easily become energy independent. Indeed, a spin-off of Eindhoven University in the Netherlands is preparing a commercial energy-positive family car Stella Era. Audi has joined as a partner. They even promise sensing robotics that takes it to the optimal part of a parking lot to charge.

Trucks and buses may not achieve solar energy independence for some time, but all could recharge, without stopping, from solar land surfaces and buildings, if necessary, boosted by nearby wind and water turbines. Trains may viably charge mainly from traveling under long-distance solar awnings with help from solar bodywork and trackside solar and wind. Studies are taking place.

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