Toyota Unveils New BEV Sports Crossover Prototype for Europe in 2025

Toyota, the renowned Japanese automaker, has recently showcased its latest prototype of a crossover sports electric vehicle (BEV) that is set to join the company’s electrified lineup in Europe by 2025.

This futuristic concept car, developed in collaboration with BYD Toyota EV Technology (BTET), a joint venture between Toyota and BYD in China, aims to captivate the European and Chinese markets with its elegant aerodynamic silhouette and distinctive fastback lines, positioning it as a design icon in Toyota’s BEV offerings.

A Stylish Alternative to SUVs

Toyota’s new crossover BEV prototype, initially revealed at the Shanghai Auto Show in April, is designed to cater to customers seeking an attractive alternative to traditional SUVs when considering their first electric vehicle purchase. The company aims to launch six battery electric vehicle models by 2026 in Europe, with the ultimate goal of achieving a fully emissions-free vehicle lineup by 2030 and complete carbon neutrality by 2040.

Embracing Next-Generation Battery Technology

In addition to showcasing the new BEV sports crossover prototype, Toyota has also announced its plans to introduce a range of next-generation batteries starting in 2026. These batteries are expected to revolutionize the way cars are conceived, manufactured, and utilized. Toyota’s upcoming battery lineup will feature three distinct technologies: Performance, Popularization, and High-Performance.

Performance Battery: Doubling Range, Reducing Costs

The Performance battery, the first in Toyota’s new generation lineup, is designed to deliver high performance while offering double the current range of the bZ4X model at a 20% lower cost. This battery will utilize a conventional structure and is expected to be a game-changer in terms of both range and affordability.

Popularization Battery: Enhancing Affordability and Quality

Toyota’s Popularization battery aims to make battery electric vehicles more accessible to a wider audience by focusing on affordability and quality. By utilizing a new bipolar structure and cheaper lithium iron phosphate (LFP) as the primary material, this battery is projected to achieve a 20% increase in range and a 40% reduction in costs compared to the bZ4X model.

High-Performance Battery: Fast Charging and Cost Efficiency

The High-Performance battery, as the name suggests, is engineered to deliver exceptional performance. This battery is expected to achieve an additional 10% reduction in costs compared to the Performance battery, enabling rapid charging times of under 20 minutes.

By employing bipolar technologies and a high-nickel content cathode, Toyota aims to offer an optimal combination of fast charging and cost efficiency.

Paving the Way for Solid-State Battery Innovation

Toyota’s commitment to pushing the boundaries of battery technology extends beyond the next-generation battery lineup. The company has made significant strides in the development of solid-state batteries, which have long been hailed as the future of electric vehicles due to their potential for increased energy density, enhanced safety, and shorter charging times.

Toyota’s Vice President of Toyota Motor Europe, Andrea Carlucci, expressed confidence in their solid-state battery advancements, stating, “We have achieved a significant technological breakthrough that overcomes the typical durability obstacle faced by solid-state batteries. Currently, we are developing a mass production method and aiming to commercialize these batteries by 2027-2028, with production capacity reaching several tens of thousands of vehicles.”


Toyota’s unveiling of the BEV sports crossover prototype and its ambitious plans for next-generation batteries highlight the company’s commitment to electrification and sustainable mobility.

With its elegant design and advanced technologies, this crossover aims to revolutionize the European and Chinese markets while offering customers a stylish alternative to traditional SUVs.

Furthermore, Toyota’s investment in solid-state battery development showcases their dedication to pushing the boundaries of electric vehicle technology and driving the industry toward a greener and more sustainable future.