Vertical Aerospace (“Vertical”) (NYSE: EVTL) today announced it is developing a hybrid-electric vertical-take-off-and landing (VTOL) variant of its VX4 aircraft, expanding range and payload capabilities to unlock new market opportunities within the already sizable $1TR1 total addressable urban air mobility market. Vertical’s hybrid-electric strategy builds on its all-electric VX4 and Flightpath 2030 strategy, enabling new potential applications in defence, logistics and commercial sectors including air ambulance services, which require longer range and higher payload than current eVTOL platforms can deliver.
Vertical’s second-generation hybrid-propulsion system, which has been in development for 18 months at the Vertical Energy Centre, will be retrofitted into one of the company’s VX4 full scale prototypes and is expected to commence flight testing in Q2 2026.
Key targeted capabilities of Vertical’s hybrid-electric variant:
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Download free sample pages More information“The demand for long-range, high-payload, quiet aircraft is growing rapidly - especially across defense and critical logistics.” said Stuart Simpson, CEO of Vertical Aerospace. “Our hybrid-electric VTOL strategy builds on our existing electric platform, world-class battery technology and large, versatile airframe, allowing us to offer uniquely scalable solutions that unlock a new frontier in air mobility and revenue stream for Vertical.”
Best-in-class hybrid-electric potential enabled by proprietary battery technology and airframe Vertical’s proprietary battery platform, developed at its purpose-built Vertical Energy Centre, is a critical component of its hybrid-electric capability.
Vertical’s battery will help power the superior hybrid range and payload capabilities, enabling best-in-class performance for mission-critical use cases. Vertical’s hybrid team has developed advanced control systems supporting safe operation and redundancy, meeting strict European Union Aviation Safety Agency (EASA) and UK Civil Aviation Authority (CAA) safety standards for eVTOL flight. Bench testing has already validated its hybrid-electric architecture, including the successful integration of control algorithms between the power unit and battery.
The VX4’s large and flexible airframe enables the integration of hybrid-electric propulsion technology and superior payload capacity without requiring major redesign. This design freedom supports both operational scalability and mission versatility - advantages that smaller platforms may struggle to accommodate.
Uniquely positioned to meet the growing defence needs across Europe
As the only remaining credible European eVTOL company, Vertical’s hybrid-electric capabilities position it as a key player amid growing defence budgets and increasing focus on sovereign industrial capacity. As European governments increasingly look to develop new technologies and platforms to strengthen their defence capabilities, Vertical is actively engaged in discussions with government agencies, as well as other prospective customers, around defence applications and other potential use cases for its hybrid-electric aircraft.
Building on all electric VX4 and Flightpath 2030
The hybrid-electric variant will be in addition to Vertical’s all-electric VX4, which remains on target for its Flightpath 2030 goal of Type Certification in the UK and Europe in 2028, followed by validation by global regulatory authorities.
