Skip to main content
  1. Home
  2. Cars
  3. Legacy Archives

This is going to be good; Lexus will use BMW i8 hybrid technology in the new LFA

Add as a preferred source on Google

Hybrids would not exist as they do today without Toyota, and supercars would not be the same if it weren’t for BMW. So what happens when these two motoring giants collaborate?

Good things. Very good things.

Recommended Videos

As we predicted last year, the BMW-Toyota partnership will produce a new hybrid supercar, following the pattern of high-powered, boundary-pushing marvels like the McLaren P1, Ferrari LaFerrari, Porsche 918, and upcoming Acura NSX.

4WheelNews reports that the new car will in fact be the next generation Lexus LFA, but with a hybrid boost from BMWs i8 supercar.

The standard LFA isn’t exactly a slouch, with a 4.8-liter, 552-horsepower V10 propelling the car to 60 mph in 3.6 seconds. Flat out, the LFA will reach 202 mph.

The Lexus is also known for the fanatically high levels of fastidiousness used in its production. The car was developed for five years, but was almost completely scrapped and re-designed at the last minute because the engineers wanted to try a carbon fiber body instead of an aluminum one. Toyota wanted perfection and wouldn’t stop until it was achieved. 

While the LFA strives for perfection in the current generation, the i8 seeks supremacy in the next. A plug-in hybrid, the i8 is powered by a twin-turbo, 231-hp three-cylinder, but with an extra 131-hp boost from an electric motor. That’s a combined 362 hp, which is good for a 0 to 60 time of 4.4 seconds and a staggering 134.5 mpge, if you factor in the all-electric driving range.

The combination should be absolutely sensational, but details on the new LFA are slim at the moment. We know that that the new car will be more powerful and economical than the previous LFA, but also likely more expensive. The previous Lexus cost $375,000, while the i8 is expected to retail for over $135,000.

Clearly, this level of performance engineering won’t come cheap, but it’s a small price to pay for automotive perfection from two generations.  

Like I said, good things.

Andrew Hard
Andrew first started writing in middle school and hasn't put the pen down since. Whether it's technology, music, sports, or…
Tesla launches the six-seat Model Y Long Wheelbase in the US
The stretched electric SUV brings more space, more comfort, and up to 325 miles of range.
Tesla Model Y Long Wheelbase Featured

Tesla is giving the Model Y a little more breathing room. The company has officially launched the Model Y Long Wheelbase in the United States and Puerto Rico, introducing a stretched version of its best-selling electric SUV with a three-row, six-seat layout that's designed to make family road trips a lot more comfortable.

A bigger Model Y with a focus on comfort

Read more
A stolen Kia reveals the hidden limits of connected car technology
Kia can see where your stolen car is. GDPR means it won't share that in real time. That is the entire problem.
Kia EV3 design

If you’re buying a car with connected car technology, thinking it would help you to recover it in the event of theft, you might want to recalibrate your expectations. 

A recent incident in the UK, in which a car owner had three tracking devices installed in his car and still couldn’t recover it, led the carmaker to state that connected-car technology isn’t a “certified security vehicle tracker” (via the BBC).

Read more
Cambrige experts find utterly simple fix for longer lasting EV batteries. Just put some pressure on it.
Scientists found a way to make EV batteries last longer without reinventing the battery
EV Charging

EV battery breakthroughs typically involve new chemistry, exotic materials, or faster charging/higher capacity. But a new study reveals that you can skip all the fancy stuff and go with a very simple solution, Researchers from the University of Cambridge found that putting the battery under the right amount of pressure actually helps.

The study was about how physical pressure affects lithium-ion battery life, which found that keeping cells under constant pressure could double their lifespan. The work was published in Nature Energy, and the team says the improvement came without changing the active materials, electrolyte, or basic battery chemistry.

Read more