The automotive industry is experiencing an unprecedented revolution with the advent of very high autonomy batteries. The Chinese manufacturer Chery is positioning itself as a pioneer in this field by announcing the development of a battery capable of offering up to 1,500 km of autonomy. This innovation promises to radically transform our relationship with electric mobility.
Innovation from Chery: a subsidiary dedicated to revolutionary batteries
Chery, a Chinese automobile giant, recently unveiled at its annual innovation conference the creation of Kunpeng, its new subsidiary specializing in the production of batteries for electric vehicles. This bold strategy aims to make the builder autonomous in the crucial battery sector, like its competitor BYD.
The range of batteries offered by Kunpeng promises to be diversified and efficient:
- Lithium-iron-phosphate (LFP) batteries with an energy density of 120 to 160 Wh/kg
- Conventional lithium ion batteries, in prismatic and cylindrical formats
- Solid-state batteries, promised for 2026
This technological diversity will allow Chery to cover a wide range of needs in terms of autonomy, ranging from 200 to 1,500 km depending on the model. The new charging technique developed by Kunpeng also promises to revolutionize the driver experience by recovering up to 400 km of range in just 5 minutes of charging.
Solid-state batteries: the future of electric autonomy
Among Chery’s most promising innovations is the development of solid state batteries. These next-generation batteries are considered the future of electric vehicle battery technology. Their potential is immense:
| Year | Target energy density | Potential autonomy |
|---|---|---|
| 2024 | 400 Wh/kg | Up to 1,000 km |
| 2025 | 600 Wh/kg | Up to 1,500 km |
| 2026 | >600 Wh/kg | Planned marketing |
These technological advances could well mark a turning point in the history of the electric automobile. With a potential range of 1,500 km, these batteries solid would finally respond to drivers’ concerns regarding the range of their electric vehicles. This innovation is part of a broader trend aimed at developing sustainable mobility solutions, as evidenced by the emergence of solar cars with almost infinite autonomy.
Performance and durability: the advantages of the new Chery batteries
Beyond the exceptional autonomy, the batteries developed by Kunpeng are distinguished by their robustness and adaptability. Designed to perform optimally in extreme conditions, they can operate effectively in a temperature range of -40 to +65 degrees Celsius.
The sustainability is also at the heart of Chery’s concerns. Kunpeng batteries are guaranteed for more than 3,000 recharge cycles, which represents a considerable lifespan for an electric vehicle. This longevity is in line with recent discoveries on the lifespan of electric car batteries, providing a concrete response to consumers’ environmental and economic concerns.
Innovation doesn’t stop at autonomy and sustainability. Chery is also working on ultra-fast charging technologies, aiming to drastically reduce the time needed to fully charge an electric vehicle. These combined advancements promise to radically transform the electric driving experience, making it more convenient and accessible than ever.
Future prospects for Chery and the automobile industry
Chery’s ambition does not stop at equipping its own vehicles. From 2027, the Chinese manufacturer plans to market its batteries to other car manufacturers. This strategy could well position Chery as a major player in the global electric vehicle battery market.
Chery’s innovation is part of a broader context of transformation of the automotive industry. With the rise of electric vehicles and the climate emergency, manufacturers around the world are intensifying their research and development efforts. The race for autonomy and energy efficiency is on, and Chery seems determined to play the leading roles in this technological revolution.
In short, Chery’s announcement concerning the development of a battery offering 1,500 km of autonomy marks an important milestone in the history of electric mobility. If these promises come to fruition, they could well redefine our expectations in terms of electric vehicles and accelerate the transition to more sustainable and efficient mobility.
