Toyota has doubled down on its belief that battery-electric vehicles cannot be the only approach to reducing emissions, citing numerous advantages of hybrid and hydrogen drivetrains as reasons for its ‘multi-tech’ approach to vehicle development.
Speaking at Toyota’s annual Kenshiki forum, the company’s chief scientist, Gill Pratt – who recently told Autocar that he believes “the correct solution isn’t a single technology” – outlined how limited battery materials could be better deployed in the short to medium term by vehicle manufacturers as a means of reducing their carbon output.
Ultimately, he said, replacing 90% of pure-ICE cars with full-hybrids equipped with a 1.1kWh battery would have a bigger impact on overall emissions than replacing 6% of pure-ICE cars with battery-EVs, because the overall emission figure for the 100 cars would be vastly reduced – in his scenario, 205g/km compared with 244g/km.
Essentially, Pratt’s argument is that spreading scarce battery materials across a wider vehicle parc – while not increasing the number of pure-EVs on sale – would reduce overall emissions more effectively.
His comments come as Toyota reveals a concept for its second bespoke EV, the bZ Compact Crossover, and two new big-selling plug-in hybrids: the Mk5 Toyota Prius and Mk2 Toyota C-HR.
The lifespan of hybrid (HEV) and PHEV cars in the EU and the UK is limited by the imminent imposition of combustion car sales bans in 2035, but Pratt’s remarks suggest such cars could play a vital role in making personal mobility more sustainable, while maintaining comparable cost and convenience to today’s combustion cars.
“By utilising their batteries better, HEVs are also more affordable and easier to recycle,” he said. They also don’t need to be plugged in, which strengthens their use case in environments where EV infrastructure is under-developed.
“We want to distribute the limited supply of battery materials, where they will reduce carbon emissions as much as possible, as soon as possible.”