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eVTOL

An electric vertical take-off and landing (eVTOL) aircraft is a powered-lift vehicle that employs electric or hybrid-electric propulsion systems to achieve vertical takeoff, hover, and landing capabilities, combining elements of helicopter operations with fixed-wing efficiency for short-range flights. These aircraft typically feature distributed electric propulsion (DEP) through multiple rotors or fans, enabling configurations such as multirotors, lift-plus-cruise designs, or vectored thrust systems, and are designed for payloads of up to five passengers or equivalent cargo over ranges of approximately 60 miles. The concept of eVTOL technology traces its modern roots to the late 2000s, when advancements in lithium-ion batteries, high-efficiency electric motors, and lightweight composite materials made practical electric feasible, with the term "eVTOL" first coined around 2009 by early developer of . Prior VTOL innovations, such as the 1960s , relied on jet engines, but eVTOLs shifted focus to sustainable, quieter electric systems to address urban noise and emissions concerns. Key advantages include operating costs as low as $300–$400 per flight hour—far below the $500–$3,000 for helicopters—along with reduced noise levels (targeting 15 dB quieter) and zero direct emissions during flight. These features position eVTOLs for applications in , such as air taxis, emergency medical transport, cargo delivery, and public services like or . As of November 2025, the eVTOL sector has seen tens of billions in total investments, including substantial funding from major players such as Airbus, Boeing, and Embraer, with hundreds of prototypes in development and initial flight testing programs underway since the mid-2010s. In November 2025, Joby Aviation began power-on testing of its first FAA-conforming prototype, entering the final phase of type certification. Regulatory progress has advanced significantly, with the U.S. Federal Aviation Administration (FAA) establishing a dedicated powered-lift category in 2024, issuing pilot certification rules, and releasing the Innovate28 implementation plan to enable scaled operations by 2028. Despite challenges like limited battery energy density (currently approximately 250–350 Wh/kg), certification delays, and the need for vertiport infrastructure—with over 1,500 sites planned globally—the market is projected to grow from $1.91 billion in 2025 to $23.4 billion by 2035, driven by global efforts in regions like China and Europe. No full type certification for piloted eVTOLs has been granted by the FAA as of late 2025, but companies like Joby Aviation and Archer are targeting commercial entry in 2026.

Introduction

Definition and principles

Electric vertical take-off and landing (eVTOL) aircraft are battery-powered or hybrid-electric vehicles designed for vertical takeoff, hover, and landing without the need for runways, primarily utilizing distributed (DEP) to achieve these capabilities. These typically accommodate up to five passengers or equivalent cargo payload and integrate electric motors to drive multiple rotors or fans, enabling applications with reduced environmental impact. The core operational principles of eVTOL aircraft revolve around generating vertical lift through distributed propulsion systems, where multiple electric motors power rotors or ducted fans to produce thrust exceeding the vehicle's weight. For sustained hover, the total thrust-to-weight ratio must be greater than 1, allowing the aircraft to counteract gravity and maintain stability via differential thrust control from the motors. Transition to forward flight involves tilting rotors, vectoring thrust, or engaging separate cruise propellers, shifting from a near-vertical orientation to efficient aerodynamic lift from wings, which improves energy use compared to pure rotorcraft. Common configurations include multirotor designs, resembling large drones with all rotors providing both lift and propulsion (e.g., four or more arms for redundancy), and lift-plus-cruise setups, where dedicated lift rotors handle vertical phases while fixed wings and cruise motors enable efficient horizontal travel. eVTOL aircraft differ from traditional vertical take-off and landing (VTOL) systems by relying on electric rather than jet or turboshaft propulsion, which enables quieter operation (with noise reductions of up to 15 dB compared to helicopters) and zero direct emissions during flight. In contrast, conventional VTOLs like the 1960s Hawker Siddeley Harrier used vectored-thrust jet engines for lift and cruise, resulting in higher noise, fuel consumption, and mechanical complexity without the scalability and redundancy benefits of electric motors. This non-electric baseline from mid-20th-century experiments, including the Harrier's first untethered hovers in 1960, laid groundwork for VTOL concepts but lacked the emission-free efficiency central to modern eVTOL designs.

Advantages and challenges

eVTOL aircraft present notable advantages for , primarily through enhanced and compared to conventional helicopters. Electric enables zero direct emissions during operation, significantly lowering local in densely populated areas. Noise levels are substantially reduced, with many designs achieving up to 20 dB lower than comparable helicopters, reducing perceived to one-quarter (since each 10 dB halves perceived ). Operating costs are estimated to be 30-50% lower than those of helicopters, around €400-700 per flight hour as of 2025 projections, driven by electric , simpler , and cheaper sources. These factors support , allowing eVTOLs to form efficient networks for short-haul passenger services without the infrastructure burdens of traditional . Energy efficiency varies by flight phase, with hover demanding higher specific power of 500-900 W/kg compared to 150-350 W/kg in cruise, reflecting the intensive energy needs of vertical operations. For passenger transport, optimized eVTOL designs achieve cruise energy consumption as low as 130 Wh per passenger-mile, underscoring their potential for viable urban routes when battery utilization is maximized. In terms of sustainability, eVTOLs powered by renewable electricity can yield substantial CO₂ reductions—up to 90% compared to ground transport in urban settings—by displacing fossil fuel-dependent cars and enabling cleaner multimodal mobility. Despite these benefits, eVTOL technology faces significant challenges that could impede widespread adoption. As of November 2025, energy density remains a primary limitation, with current lithium-ion cells at 250-350 Wh/kg insufficient for ranges beyond short intra-city flights, where 400+ Wh/kg is needed at the cell level to support practical payloads and durations. Initial manufacturing costs are high, ranging from $1-5 million per unit, due to and requirements, which may constrain fleet scaling without subsidies or volume . integration issues arise from the need for dedicated low-altitude corridors and advanced to avoid with manned and unmanned systems. Public acceptance is hindered by perceptions, including concerns over failures and risks in urban overflights, necessitating robust and education efforts.

History

Early concepts and precursors

The conceptual foundations of vertical take-off and landing () aircraft trace back to the late , when sketched designs for an "aerial screw" in his around 1480–1482, envisioning a helical rotor device powered by human or mechanical means to achieve vertical lift, though it remained a theoretical precursor without practical implementation. In the mid-20th century, advancements in jet propulsion enabled the first practical VTOL aircraft, exemplified by the British Hawker Siddeley P.1127, which achieved its inaugural untethered hover flight on November 19, 1960, using vectored thrust from a single engine with rotating nozzles. This prototype paved the way for the Harrier Jump Jet, the first operational VTOL fighter, which entered service with the Royal Air Force in 1969 and demonstrated combat capabilities in short take-off and vertical landing configurations. Concurrently, NASA and the U.S. Army pursued tiltrotor concepts to blend helicopter-like vertical flight with fixed-wing efficiency; the XV-15 prototype, featuring proprotors that pivoted for transition between hover and forward flight, completed its maiden flight on May 3, 1977, validating the technology through over 7,000 flight hours in subsequent testing. The transition toward electric VTOL (eVTOL) emerged in the early 2010s amid experiments addressing the inefficiencies of combustion-based systems. In 2011, French engineer Pascal Chrétien piloted the Solution F/Chrétien , a coaxial-rotor design powered by electric motors and lithium-polymer batteries, achieving the world's first untethered, manned electric flight lasting 2 minutes and 10 seconds at low altitude. That same year, Germany's e-Volo (later ) conducted the first manned flight of a multirotor eVTOL with its prototype, a 16-rotor configuration that hovered for 90 seconds, marking a shift from single-rotor helicopters to distributed electric for enhanced stability and redundancy. These non-electric VTOL precursors, reliant on jet or engines, suffered from high specific fuel consumption—often exceeding 1.0 lb/lb/hr in hover—limiting endurance to minutes and imposing operational constraints on and . Additionally, their high exhaust velocities generated levels above 110 dB, complicating urban integration and raising environmental concerns. Such drawbacks spurred the pursuit of , which promised quieter operation (potentially below 70 dB at takeoff) and improved efficiency through electric motors, as evidenced by early prototypes reducing energy costs by leveraging battery-powered distributed .

Modern development and initiatives

The resurgence of electric vertical takeoff and landing (eVTOL) aircraft development in the 2010s was catalyzed by key initiatives that envisioned (UAM) networks. In 2016, released its Elevate whitepaper, outlining a framework for on-demand aerial ride-sharing using eVTOL vehicles to alleviate urban congestion, predicting scalable services integrated with ground transportation. NASA's efforts gained momentum around 2017, with a market study commissioned that year to assess viability, followed by the 2018 UAM Grand Challenge announcement to spur industry innovation in airspace integration and vehicle certification. Concurrently, pioneering companies emerged or pivoted to electric propulsion; , founded in 2009, shifted focus to eVTOL in the early 2010s through NASA collaborations starting in 2012 on distributed electric propulsion technologies. was established in 2018 specifically to develop eVTOL for urban passenger transport. These efforts marked a departure from traditional , emphasizing battery-electric systems for quieter, more efficient operations. Government programs in the late and early accelerated eVTOL maturation by addressing regulatory and integration hurdles. The U.S. Air Force launched Agility Prime in April 2020, a collaborative initiative to test eVTOL for military applications, including and personnel , fostering partnerships with over 50 industry players. In , the SESAR Joint Undertaking initiated UAM integration studies in 2019 through the CORUS project, developing a for U-space services to enable safe and eVTOL operations in low-altitude urban airspace. These initiatives provided testing frameworks and policy guidance, bridging the gap between prototypes and certified . Progress in the 2020s highlighted eVTOL's transition toward practical deployment, with demonstrations and financial maneuvers underscoring growing viability. In August 2020, under Agility Prime, U.S. Air Force leaders witnessed the first eVTOL flight demo at , , featuring LIFT Aircraft's piloted , validating electric vertical flight in a context. Corporate milestones included (SPAC) mergers that infused capital; Joby completed its merger with Reinvent Technology Partners in August 2021, enabling public trading and expanded R&D, while Archer finalized its deal with Atlas Crest Investment Corp. in September 2021. By 2025, international collaborations advanced global adoption, such as eVTOL flight demonstrations at the Expo in by companies including Joby and SkyDrive, showcasing UAM potential in dense urban settings. Funding trends reflected surging investor confidence, with global investments in eVTOL exceeding $10 billion by 2025, fueled by , strategic partnerships, and public markets. Major automakers played a pivotal role; announced a $500 million investment in Joby in October 2024, with the first $250 million tranche closing in May 2025, bringing total investment to approximately $894 million as of mid-2025 to support manufacturing scale-up and certification efforts. These inflows enabled and infrastructure planning, positioning eVTOL as a cornerstone of future mobility ecosystems. As of November 2025, EHang's cumulative deliveries approached 200 units with expanding flights in , while Joby adjusted its initial commercial operations in to early 2026.

Commercial milestones and orders

In 2021, United Airlines placed a conditional order for up to 200 Archer Aviation eVTOL aircraft, valued at $1 billion, marking one of the first major airline commitments to the sector and signaling strong commercial interest in urban air mobility. This deal, announced alongside Archer's SPAC merger, included options for an additional 200 units and positioned United as a key launch customer for Archer's Midnight aircraft, with initial pre-delivery payments following in 2022. EHang achieved significant commercial progress in , securing regulatory approval for of its EH216-S autonomous eVTOL in 2024 and obtaining the world's first air operator certificate for passenger-carrying eVTOL operations in March 2025. By the first quarter of 2025, EHang had delivered 11 EH216-S units, with cumulative deliveries reaching approximately 53 units; the company received over 150 additional orders in the second quarter, enabling initial commercial flights for and in cities like and . These milestones positioned EHang as a leader in , where low-altitude economy initiatives drove rapid adoption of autonomous passenger services. The eVTOL industry saw substantial capital influx through SPAC listings in 2021, with merging with Reinvent Technology Partners to raise approximately $1.6 billion at a $6.6 billion valuation, funding and scale-up. Similarly, Archer's SPAC with Atlas Crest Investment Corp generated about $858 million in gross proceeds, supporting development and partnerships like the . In 2025, secured additional commitments, including a projected $700 million needed for its eVTOL push toward 2028 entry into service, amid progress in piloted . Entry-into-service timelines advanced in 2025, with entering the final phase of FAA type certification, targeting initial commercial operations in by late 2025 and U.S. launches in 2026 following over 40,000 miles of cumulative . progressed toward cargo deliveries, fulfilling its 2021 order from for 10 aircraft with initial handovers expected in 2025, after completing the first customer delivery to a Norwegian operator earlier that year. By mid-2025, the global eVTOL order book exceeded thousands of units across manufacturers, with leading volume through EHang's cumulative orders surpassing 1,000 units for applications in and urban transport.

Technology

Propulsion and flight mechanisms

Electric propulsion in eVTOL aircraft primarily relies on distributed electric propulsion (DEP), which employs multiple lightweight, high-efficiency brushless DC motors to drive an array of propellers or ducted fans, typically ranging from 4 to 8 for vertical lift and additional units for forward . This configuration enhances redundancy, reduces noise, and improves safety by allowing continued operation even if individual motors fail, as the distributed setup mitigates single-point vulnerabilities common in traditional designs. DEP systems generate through aerodynamic principles similar to multirotor drones, where rotor speed and and cyclic forces for . Flight mechanisms in eVTOLs vary by configuration to optimize vertical takeoff and landing () with efficient forward . Multirotor designs, such as the 184, use fixed rotors solely for hover and rely on a simplified to forward flight via , prioritizing ease of but limiting efficiency due to constant rotor drag. In contrast, vectored systems, like the S4 with its six tilting rotors or the with integrated tilting ducted fans, redirect from vertical to horizontal, combining VTOL capability with wing-borne for streamlined performance up to 200 knots. Lift-plus- configurations separate vertical rotors from fixed-wing propulsion, enabling the rotors to fold or stop during forward flight for reduced drag and higher speeds. As of 2025, achieved the first piloted tilt-rotor eVTOL flight in April and flew a hybrid-electric demonstrator in November, advancing practical implementation of these mechanisms. The from to cruise mode involves complex dynamics, where the aircraft shifts from rotor-dominated hover (high , low forward speed) to wing-supported flight (low , high speed), requiring precise to maintain amid changing aerodynamic forces. Physics of this phase includes managing pitch moments from and ensuring center-of-gravity alignment to prevent , often using redundant actuators and systems for fault-tolerant . Advanced algorithms, such as , dynamically adjust rotor speeds and control surfaces to dampen oscillations during the 10-30 second , drawing on principles from and fixed-wing trim. Efficiency in eVTOL propulsion stems from electric motors achieving up to 95% conversion efficiency from electrical to mechanical power, far surpassing the 30-40% thermal efficiency of gas turbine engines in conventional aircraft. While specific impulse—a measure of thrust per unit energy—is not directly analogous for electric systems, the overall propulsion chain in DEP eVTOLs yields effective specific energy utilization 3-5 times higher than fossil-fuel counterparts, enabling quieter and more sustainable operations when integrated with high-voltage power distribution.

Airframe designs

eVTOL airframes are engineered to balance the demands of vertical () with efficient forward flight, incorporating structural elements that support distributed electric systems while minimizing weight and . These designs typically feature configurations optimized for , emphasizing modularity and scalability to accommodate varying passenger loads from two to six individuals. Wing configurations in eVTOL aircraft vary to optimize lift during different flight phases, with fixed-wing designs providing primary lift in cruise to enhance range and efficiency. For instance, Archer Aviation's Midnight employs a high-aspect-ratio fixed wing with twelve rotors—six fixed for vertical lift and six tilting for cruise propulsion—enabling transitions between hover and forward flight while maintaining structural simplicity. In contrast, pure multirotor configurations like the Volocopter VoloCity rely on rotary wings without fixed aerodynamic surfaces, using eighteen rotors distributed across the airframe for stable hover and short-range operations, which simplifies manufacturing but limits cruise speeds. Tilt-wing or tilt-rotor hybrids, such as those explored in Bell's Autonomous Pod Transport (APT), integrate tilting mechanisms to redirect entire wings or rotors, combining VTOL capabilities with winged cruise efficiency for cargo and passenger variants. Lightweight materials are essential for eVTOL airframes to achieve the power-to-weight ratios required for electric flight, with carbon fiber-reinforced composites widely adopted for their high strength-to-weight properties. These materials enable 20-30% weight reductions compared to traditional aluminum alloys, directly improving and in designs scalable for 2-6 passengers through modular sections. For example, manufacturers like Toray supply carbon fiber composites that are approximately 40% lighter than aluminum while meeting structural demands, facilitating rapid assembly via automated fiber placement techniques. Aerodynamic considerations in eVTOL airframes prioritize low —typically 5-50 kg/m² (50-500 N/m²)—to ensure quiet hover operations by distributing over larger areas, reducing levels to below 65 at 100 meters. This approach enhances hover and public in environments. Additionally, integration of distributed systems along the reduces induced by 15-38% during , as propellers energize the over wings, improving overall lift-to-drag ratios without compromising performance. Safety features in eVTOL airframes incorporate redundant structural elements to enhance and , aligning with FAA Part 23 standards for commuter-category . These include duplicated load paths in composite fuselages and modular pods that absorb , ensuring occupant equivalent to traditional small while supporting powered-lift pathways.

Power systems and autonomy

eVTOL depend on advanced systems for , with lithium-ion packs serving as the storage solution. In , these batteries typically offer energy densities between 250 and 400 Wh/kg at the cell level, enabling efficient vertical takeoff and short-range flights while balancing weight and safety requirements. For enhanced performance, silicon-anode variants, such as those developed by Amprius Technologies, achieve densities up to 450 Wh/kg, allowing for longer endurance in demanding aviation environments like . These high-density cells support rapid discharge rates suitable for eVTOL's high-power demands during takeoff and hover phases. To extend operational range beyond battery limitations, hybrid power systems integrate lithium-ion packs with hydrogen fuel cells, achieving mission distances of 200-300 km. Fuel cells provide supplementary energy for cruise phases, reducing overall battery mass while maintaining electric motor efficiency. Power management in these systems relies on DC-DC converters to regulate voltage across distributed propulsion units and ensure stable power delivery. Battery thermal management systems, including active cooling via liquid or air circulation, are critical to prevent overheating during high-discharge operations and sustain cycle life. The achievable range for battery-powered eVTOL can be approximated by the equation for electric propulsion: R = \frac{\eta \cdot SE \cdot L/D}{g} where \eta is propulsion efficiency, SE is battery specific energy (Wh/kg), L/D is lift-to-drag ratio, and g is gravitational acceleration (9.81 m/s²). Autonomy enhances eVTOL safety and efficiency through AI-driven flight control systems that integrate sensor fusion for real-time decision-making. Sense-and-avoid capabilities employ LiDAR, radar, and cameras to detect obstacles and traffic, enabling collision-free navigation in complex urban airspace. Wisk Aero's prototypes exemplify Level 4 autonomy, where the vehicle operates without human intervention in defined operational domains; fully autonomous tests began in 2021 and have progressed to multi-vehicle coordination by 2025. Advancements in 2025 include emerging solid-state batteries with prototypes surpassing 500 Wh/kg, such as NASA's sulfur-selenium design tailored for aviation, which promises doubled over conventional -ion while improving through non-flammable electrolytes. EHang's solid-state has also demonstrated extended flight times in eVTOL tests, achieving up to 480 Wh/kg with metallic anodes. Complementing these, network facilitates beyond-visual-line-of-sight (BVLOS) operations by delivering low-latency data links for remote monitoring and .

Applications

Urban passenger services

Urban passenger services represent a primary application for electric vertical takeoff and landing (eVTOL) aircraft, enabling on-demand and shuttle operations within densely populated cities to alleviate ground . These services typically involve point-to-point flights covering distances of 20-50 kilometers, accommodating 4-6 passengers per vehicle, and leveraging vertiport networks that repurpose existing rooftops and helipads for efficient . Key operators are advancing deployments through strategic partnerships and regional trials. Joby Aviation, in collaboration with Uber Technologies, plans to integrate air mobility services into the Uber app, targeting initial operations in Los Angeles and the San Francisco Bay Area by late 2025, building on acquisitions like Blade Air Mobility to expand passenger booking capabilities. Meanwhile, Archer Aviation has initiated test flights of its Midnight eVTOL in Abu Dhabi in July 2025, with trial operations in Dubai slated before year-end to support commercial launches in the UAE by 2026. In November 2025, Archer completed an in-country flight test campaign for its Midnight eVTOL in the UAE, supporting planned commercial launches by 2026. The for these services emphasizes per-seat pricing, estimated at $3-6 per kilometer initially, to align with transportation costs while promoting shared rides for affordability. Integration with ride-hailing applications like facilitates seamless booking and , potentially reducing fares through scale and automation advancements. As of 2025, pilot programs underscore growing viability, including legacy initiatives from the where demonstrated eVTOL shuttles, and Singapore's preparations for limited-scale operations. These trials highlight flight times of 10-20 minutes for urban routes, contrasting sharply with multi-hour car journeys in congested areas.

Cargo and logistics

Electric vertical takeoff and landing (eVTOL) aircraft are increasingly applied to and operations, enabling faster and more efficient transport of goods in scenarios where traditional ground or fixed-wing methods face limitations such as or remote access challenges. These vehicles support payloads ranging from small packages to medium-sized , with designs optimized for vertical operations that allow direct point-to-point without reliance on runways. In last-mile , eVTOLs small payloads typically between 50 and 500 kg, facilitating autonomous drops in urban or remote areas to streamline and endpoints. For instance, companies like MightyFly are developing autonomous hybrid-electric eVTOLs like the for expedited , demonstrating flight and operations that bypass road networks for quicker parcel distribution. Similarly, AIR's uncrewed eVTOL supports up to 550-pound payloads and 100-mile ranges, targeting last-mile urban deliveries with up to 70 cubic feet of cargo space. These applications integrate with existing systems for hybrid , where eVTOLs manage longer segments before handing off to smaller s for final drops. For medium-haul , eVTOLs offer viable solutions for regional , carrying payloads around 500 kg over distances up to 400 km while reducing emissions compared to conventional aircraft. A prominent example is ' ALIA-250, which has ordered for package deliveries, featuring a 1,400-pound cargo capacity, 250-mile range, and 170 mph cruising speed to serve small and mid-size markets efficiently. This partnership positions eVTOLs as a stepping stone for broader cargo networks, with the ALIA demonstrating cross-country flights across 22 U.S. states to validate logistics reliability. Integration with fleets enhances hybrid systems, allowing eVTOLs to transport bulkier items over medium distances before smaller unmanned aerial vehicles complete the last leg, thereby optimizing overall throughput. In , eVTOLs enable precision spraying and monitoring tasks, applying crop protection materials or conducting aerial surveys with high accuracy and reduced environmental impact. In , low-altitude economy initiatives are expanding eVTOL use in agriculture, with unmanned models like the V2000CG supporting 400 kg payloads for inter-city transport of produce, and regional plans in aiming to operationalize agricultural drones over 4.33 million hectares by 2025. These applications prioritize safety by eliminating pilot exposure to chemicals and enabling rapid recharge cycles for continuous operations. eVTOLs provide efficiency gains in urban by avoiding ground traffic, potentially reducing times significantly compared to trucks—for example, enabling 3.2 trips per hour with 75% utilization. Battery limitations, typically 100-400 km depending on , influence route planning but are mitigated by vertiport networks. projections indicate the and segment will reach approximately $0.25 billion in , representing about 13% of the total eVTOL valued at $1.91 billion, with a exceeding 35% through 2030 driven by demands.

Emergency and specialized services

Electric vertical takeoff and landing (eVTOL) aircraft are emerging as vital tools for (EMS), enabling rapid medevac in scenarios where ground ambulances face delays due to or . These vehicles can achieve speeds up to three times faster than traditional ambulances, allowing for quicker transport of patients or organs in time-critical situations. A seminal occurred in under the U.S. Air Force's Agility Prime program, where Kitty Hawk's Heaviside eVTOL conducted the first electric medevac exercise, flying at speeds up to 180 mph with autonomous features to simulate personnel recovery and evaluate loading procedures for stretchers. This exercise highlighted eVTOLs' low —38 dBA at 1,000 feet—and minimal logistical footprint, making them suitable for urban or remote EMS operations. Integration of onboard life-support systems further enhances eVTOL viability for . Designs like Urban Aeronautics' CityHawk accommodate pilots, patients, companions, personnel, and a complete suite of medical equipment, including ventilators and defibrillators, to maintain care during flight. In 2025, advanced this capability through its partnership with Germany's Luftrettung, conducting practical trials to incorporate the VoloCity eVTOL into live rescue missions, emphasizing sustainable electric propulsion and customized life-support adaptations for faster, quieter responses. Similarly, Jetson Aerospace's ONE eVTOL, in collaboration with Eurosets' Xtreme Rescue device, demonstrated potential to slash ground transport times by up to 70% in simulations, reaching high-altitude sites in under four minutes. For disaster relief, eVTOLs facilitate search-and-rescue () with advanced sensors like thermal imaging for detecting heat signatures in low-visibility conditions, such as nighttime or smoke-filled environments. The Agility Prime initiative's exercises underscored eVTOL autonomy and vertical landing precision for accessing disaster zones inaccessible to ground vehicles. In wildfire scenarios, Pivotal's eVTOL underwent multi-agency demonstrations in in 2025, showcasing rapid deployment for and supply drops of essentials like to fire camps, thereby reducing response delays in rural "ambulance deserts" and rugged terrain. Beyond core EMS and relief, eVTOLs serve specialized roles in infrastructure inspection and . Starling Systems' Pathfinder-X fixed-wing eVTOL, with over three hours of flight time and speeds up to 100 mph, captures high-resolution imagery to identify vegetation encroachment on power lines and structural flaws in bridges, minimizing risks to human inspectors in hazardous areas. For wildlife tracking, ALTI Unmanned's eVTOL uses thermal cameras and real-time video to monitor animal migrations, population densities, and poaching threats across vast reserves, providing non-intrusive data on habitat changes like or water source degradation. A notable 2025 case study in , , tested (AAM) for emergency simulations using proxies for eVTOLs, delivering supplies such as food, water, and medical items from to Kamogawa in disaster-like conditions; this verified logistical efficiencies equivalent to replacing five ground drivers annually, while analyses suggest eVTOL medevac could cut overall response times by 40-60% compared to conventional .

Military and recreational uses

eVTOL technology has found applications in operations, particularly for and missions. For instance, ' Ghost-X, a modular unmanned aerial system (UAS) capable of vertical takeoff and landing, was selected by the U.S. Army in 2024 for rapid fielding under the Replicator initiative, enabling , , and (ISR) in tactical environments. In collaboration with eVTOL developer , announced in late 2024 plans to develop a hybrid vertical takeoff and landing () tailored for use, including rapid transport and defense applications, with potential integration of autonomy for unmanned operations. Additionally, eVTOLs support logistics in contested areas through programs like the U.S. Air Force's Agility Prime, which has awarded multiple contracts exceeding $100 million by 2025 to companies such as ($131 million for delivery) and Archer ($142 million for six eVTOLs). In recreational contexts, eVTOLs enable personal ownership and leisure flying, often designed as ultralight vehicles that bypass traditional pilot certification requirements. The Lift Aircraft HEXA, a single-seat multirotor eVTOL priced at approximately $500,000 per unit, serves as a training and recreational platform, allowing users to fly after minimal instruction without a full pilot's license under FAA Part 103 ultralight rules. Post-2025, eVTOL-specific events have emerged, such as the Jetson Air Games in 2025, featuring single-seater eVTOLs like the Jetson ONE navigating pylon courses to demonstrate precision flight. Other events include the world's first crewed all-electric in in October 2025 and the centennial Pulitzer Trophy race, which incorporated for the first time. Representative examples of recreational eVTOLs include roadable designs like the Alef Model A, a dual-mode with planned deliveries starting in late , offering a 110-mile flight range for personal use after street-legal driving. In the , concepts like the Luft Pinoy "super-jeepney"—a hydrogen-powered eVTOL detachable from its —aim to facilitate across the country's islands, combining ground transport with aerial hopping for leisure travel. Challenges in these domains include ethical concerns over eVTOL weaponization, where integrating lethal autonomous systems raises issues of and in combat decisions, as highlighted in discussions on AI-driven warfare. For recreational uses, certification hurdles persist for non-pilots, though ultralight classifications like those for the Pivotal enable license-free operation, prompting ongoing FAA reviews to balance accessibility with safety.

Regulation and certification

United States

In the , the (FAA) has established a dedicated regulatory framework for electric vertical takeoff and landing (eVTOL) aircraft through the Powered-Lift Final Rule, issued in October 2024. This rule introduces powered-lift as a distinct aircraft category under 14 CFR Part 21, encompassing hybrid and electric vertical-lift vehicles designed for (AAM). It streamlines pilot certification by allowing training with a single set of flight controls, aligns operational rules with existing and fixed-wing standards, and facilitates integration into the (NAS) by addressing beyond visual line of sight (BVLOS) operations and vertiport usage. Building on this, the FAA launched the Electric Vertical Takeoff and Landing (eVTOL) and (AAM) Integration Pilot Program (eIPP) in September 2025 to accelerate testing of BVLOS operations and vertiport through public-private partnerships. The program enables selected operators to conduct real-world demonstrations of eVTOL use cases, such as urban passenger transport and cargo delivery, while gathering data to refine safety standards and airspace integration protocols. Participants, including companies like , must comply with existing FAA regulations while testing innovative elements like automated flight paths and vertiport compatibility. The process for eVTOL aircraft primarily follows type certification under amended 14 CFR Part 23 airworthiness standards, supplemented by special class criteria tailored to powered-lift designs. Manufacturers develop custom airworthiness criteria under Part 21.17(b), drawing from Part 23 Amendment 64 for commuter category airplanes and incorporating eVTOL-specific requirements for distributed propulsion, battery systems, and vertical flight modes. A notable milestone is Joby Aviation's entry into Stage 4 of the five-stage type process in November 2025, where it initiated power-on testing of its first FAA-conforming prototype aircraft to validate compliance with airworthiness standards. Key regulatory updates in 2025 include the Modernization of Special Airworthiness Certification () final rule, published in July 2025, which expands experimental and categories to support eVTOL prototyping and early operations. This rule removes outdated restrictions on , allowing higher weights and speeds suitable for some eVTOL designs, and enables broader testing under special airworthiness certificates. As of November 2025, no eVTOL aircraft have achieved full type certification for commercial passenger operations, though over 20 prototypes from developers such as , , and are actively undergoing FAA-supervised testing, including flight trials and systems validation. Infrastructure development is guided by FAA Advisory Circulars and engineering briefs, with vertiport standards outlined in Engineering Brief 105A (December 2024, updated in 2025), which supplements AC 150/5390-2D for design to accommodate eVTOL takeoff, landing, and charging needs. These standards specify criteria, such as clear approach paths, , and , while AC 150/5360-13A provides terminal planning guidelines for integrating vertiports into facilities. For NAS integration, eVTOL operations rely on Unmanned Aircraft System Traffic Management (UTM) systems, which enable low-altitude traffic coordination through data exchange with FAA , supporting scalable AAM without disrupting manned .

Europe

The (EASA) issued the Special Condition for small-category VTOL-capable aircraft (SC-VTOL) in 2022 to establish a dedicated for powered-lift eVTOL vehicles, addressing their unique aerodynamic and operational characteristics beyond traditional or fixed-wing standards. This performance-based regulation emphasizes risk mitigation through safety objectives rather than prescriptive rules, enabling innovative designs while ensuring equivalent safety levels to certified . SC-VTOL was updated in 2025 via multiple Means of Compliance (MOC) publications, including the fourth issue in July with supplements for structural integrity and , and the fifth issue addressing reliability. These updates incorporate feedback from industry consultations and align with broader Plan for Aviation Safety goals. A key aspect includes proposed noise certification standards under ICAO Annex 16 principles, adapted for phases, mirroring limits for takeoff, overflight, and approach to minimize urban environmental impact. Certification progress in advanced notably in 2025, with conducting piloted certification flights with its eVTOL, focusing on transition maneuvers and hovering stability in coordination with EASA validation processes. Note that , a key European developer, filed for bankruptcy in February 2025, stalling its certification efforts for the . National initiatives complement EASA efforts, such as vertiport demonstrations at sites like the Urban Air Port, which has tested infrastructure for eVTOL integration. In , the Region Advanced Air Mobility Alliance supports UAM development, linking key sites like and heliports for demonstration flights and operational simulations for eVTOL services. EASA's 2025 updates further harmonized pilot training for eVTOL through revised Acceptable Means of Compliance (AMC), including guidance aligned with AMC 20-14 for developing tailored programs emphasizing automation management and urban navigation. Over 10 European eVTOL prototypes, from developers like and , are now in active validation phases under SC-VTOL, involving flight envelope expansion and environmental testing.

International harmonization

The (ICAO) plays a pivotal role in coordinating global standards for electric vertical takeoff and landing (eVTOL) aircraft, particularly through its 2025 initiatives addressing noise and emissions. In 2025, ICAO's Committee on Aviation Environmental Protection (CAEP) established a working group to develop noise certification standards tailored to (VTOL) operations, focusing on integrating eVTOL into existing environmental frameworks like Annex 16. This effort builds on assessments of emerging technology aircraft noise, aiming to harmonize measurement procedures that account for eVTOL's unique acoustic profiles, such as distributed electric propulsion. Additionally, ICAO supports bilateral agreements, such as the FAA-EASA Multilateral Bilateral Aviation Safety Agreement (MB-ACC), which facilitates reciprocal validation of eVTOL certifications to streamline international operations. In the Asia-Pacific region, regulatory bodies are advancing eVTOL integration through national certifications and roadmaps that align with ICAO principles. China's Civil Aviation Administration (CAAC) granted type certification to EHang's EH216-S eVTOL in October 2023, marking the world's first for a passenger-carrying autonomous model, and expanded this in 2025 by issuing production certificates and the first air operator certificates (AOCs) for commercial human-carrying flights. In Japan, the of , , and (MLIT) outlined a four-phase (UAM) roadmap in 2025, targeting demonstration flights at the event to validate eVTOL operations in urban environments, with full-scale commercial services projected by 2030. Beyond Asia-Pacific, other regions are pursuing localized trials and infrastructure regulations to support eVTOL harmonization. Australia's Civil Aviation Safety Authority (CASA) initiated BVLOS trials in October 2025, primarily for unmanned aircraft systems including drones, with expanded airspace areas around to test integration with manned aviation and potential applicability to emerging eVTOL technologies. In the United Arab Emirates, the General Civil Aviation Authority (GCAA) introduced vertiport regulations under CAR AGA PART VFI in June 2025, approving hybrid designs for eVTOL such as those planned with at sites to facilitate services. Despite these advances, challenges persist in achieving full international harmonization, particularly around divergent noise rules and cross-border operations. ICAO's proposed Chapter 16 standards, set for adoption in 2029, introduce stricter limits for but require adaptations for eVTOL's quieter profiles, leading to variations in regional enforcement that complicate global deployment. Mutual recognition pacts remain underdeveloped, with ongoing ICAO efforts emphasizing early bilateral validations to enable seamless cross-border eVTOL flights, though regulatory divergences in and continue to pose barriers.

Industry and outlook

Leading companies and prototypes

In the United States, leads with its S4 eVTOL, a tilt-rotor aircraft designed for four passengers plus a pilot, offering a range of approximately 150 miles (241 km) and targeting FAA type certification in 2025. The company achieved a milestone in April 2025 with the first piloted all-electric tilt-rotor transition flight, demonstrating vertical takeoff, forward cruise, and vertical landing. By late 2025, Joby powered up its first FAA-conforming production prototype for testing, advancing toward commercial air taxi operations. Archer Aviation's eVTOL, configured for four passengers and a pilot, features vectored for vertical operations and a cruise speed of up to 150 (241 ) with a range of about 60 miles (97 ). In 2025, the prototype reached a record altitude of 7,000 feet during testing and conducted public demonstration flights at the International , signaling progress toward UAE-based operations planned for late 2025. Beta Technologies' ALIA platform emphasizes cargo applications, with the ALIA-250 eVTOL variant supporting up to five passengers or equivalent payload for short-range missions, backed by partnerships for deliveries. In 2025, Beta advanced for the ALIA-250 eVTOL and ALIA CX300 conventional takeoff model, completing the first all-electric passenger demonstration flight in and integrating hybrid-electric propulsion with . In and , EHang Holdings' stands out as a fully autonomous, two-passenger multicopter with a 100 km/h (62 mph) cruise speed and 30 km (19 mile) range, having secured production certifications in and conducted urban flights in Europe under the U-ELCOME project. By September 2025, the EH216-S achieved its first pilotless human-carrying flight in and expanded partnerships for global commercialization, including over 1,000 units ordered primarily in . Vertical Aerospace's VX4 eVTOL employs tilt-rotor technology for four passengers plus a pilot, aiming for a 100-mile (161 km) range and supported by UK government funding. In 2025, the prototype completed its first piloted flight in open airspace, a 17-mile airport-to-airport journey at 115 mph (185 km/h), and neared full wingborne transition testing, with Honeywell aiding certification of critical systems. Lilium's , a seven-passenger ducted-fan eVTOL targeting regional missions, faced setbacks with the company's in early , leading to the sale of its patent portfolio to ; however, EU trial preparations had been planned for prior to the restructuring. Among other notable developers, Brazil's (an subsidiary) is progressing its five-passenger eVTOL prototype, with full-scale assembly completed in and first flight targeted for late or early 2026, focusing on a 60-mile (97 km) range for urban services. Aero's Cora Generation 6, a fully autonomous eVTOL backed by , features lift-and-cruise for two passengers and advanced self-flying capabilities, with infrastructure partnerships accelerating testing in . As of 2025, over 750 eVTOL prototypes have been developed globally, with cumulative flight hours across leading programs exceeding 10,000, driven by intensive testing from companies like Joby and .

Market projections and challenges

The eVTOL aircraft market was valued at USD 0.76 billion in 2024 and is projected to reach USD 4.67 billion by 2030, growing at a (CAGR) of 35.3%. This expansion is driven primarily by the (UAM) segment, which is anticipated to dominate with a leading share in applications due to rising demand for efficient urban transportation solutions. Key growth drivers include the potential for eVTOL to alleviate urban congestion by enabling faster point-to-point travel in densely populated areas. Cumulative investments in the sector have surpassed USD 25 billion as of early 2025, fueled by , strategic partnerships, and , particularly in . Additionally, the adoption of hybrid-electric propulsion systems is enabling ranges exceeding 500 km, addressing limitations of fully electric designs and broadening applications beyond short-haul flights. Despite these drivers, the industry faces significant challenges, including constraints from shortages and high demand for advanced lithium-ion cells capable of supporting eVTOL's high discharge rates. Financing remains volatile, with SPAC-backed companies experiencing sharp declines in valuation post-2022 amid market corrections and investor skepticism. Infrastructure development poses another hurdle, as establishing vertiport networks could cost over USD 500 million for a basic urban system, encompassing construction, charging facilities, and integration with existing airspace. In 2025, the sector is expected to generate initial revenue streams from cargo delivery and (EMS), leveraging less stringent operational requirements compared to passenger transport. Projections indicate around 1,000 eVTOL units in service by 2030, though certification delays— with no full type certifications achieved as of November 2025—may temper this timeline.

References

  1. [1]
    Advanced Air Mobility | Air Taxis - Federal Aviation Administration
    AAM aircraft is an umbrella term for aircraft that are typically highly automated, electrically powered, and have vertical take-off and landing capability.Missing: overview | Show results with:overview
  2. [2]
    NASA Electric Vertical Takeoff and Landing (eVTOL) Aircraft ...
    Aug 1, 2021 · By contrast, electric VTOL aircraft (eVTOL)1 rely on simpler propulsion units (electric motors and in some cases fixed-pitch propellers). This ...
  3. [3]
    What Is An “eVTOL”? - Forbes
    Apr 30, 2024 · Electric vertical takeoff and landing (eVTOL) aircraft are nearing certification, after 15 years of development. What makes these advanced ...
  4. [4]
    A Complete Guide to eVTOL | Dewesoft
    Nov 21, 2024 · eVTOL aircraft are designed to take off and land vertically, similar to helicopters. This capability is achieved through various rotors, ducted fans, or ...
  5. [5]
    Is this the year of the eVTOL? - AOPA
    Jan 14, 2025 · The electric vertical takeoff and landing industry faces a broadly self-imposed deadline of 2025 for entering commercial service.
  6. [6]
    Evolution of eVTOLs and electric aircraft in 2025 - Flying Cars Market
    Mar 17, 2025 · The eVTOL aircraft market has demonstrated remarkable growth, increasing from USD 1.70 billion in 2024 to USD 1.91 billion in 2025, representing a year-over- ...
  7. [7]
    [PDF] NASA Electric Vertical Takeoff and Landing (eVTOL) Aircraft ...
    By contrast, the operating cost of a typical 4-seat eVTOL aircraft is expected to be on the order of $300 per flight hour for a full-electric version up to $400 ...
  8. [8]
    [PDF] Historical Overview of V/STOL Aircraft Technology
    For over 25 years a concerted effort has been made to derive aircraft that combine the vertical take- off and landing capabilities of the helicopter.
  9. [9]
    eVTOL aircraft for the low-altitude economy - ScienceDirect.com
    Oct 24, 2025 · One prominent development direction for eVTOL aircraft is the achievement of highly automated and intelligent autonomous flight capabilities.<|control11|><|separator|>
  10. [10]
    [PDF] Assessment of Noise from Emerging Technology Aircraft - ICAO
    Some ETA projects have identified a target of 15 to 20 dB reduction in noise emissions compared with helicopters of similar weight. In simplified terms, a ...
  11. [11]
    [PDF] Environmental and economic assessment of an eVTOL aircraft fleet ...
    Considering all these improvements, the operating cost of eVTOL should be about 650 €/FH [3], hence the half of the operating cost of a helicopter.
  12. [12]
    Challenges and key requirements of batteries for electric vertical ...
    Jul 21, 2021 · This work identifies the primary battery requirements for eVTOL in terms of specific energy and power, fast charging, cycle life, and safety.
  13. [13]
    [PDF] The promise of energy-efficient battery-powered urban aircraft - arXiv
    Jun 18, 2021 · Fully occupied Joby 5-seater, Beta Alia-250, and Lilium Jet show an energy consumption of about 156, 181, and 218 Wh/passenger-mi respectively, ...
  14. [14]
    [PDF] Robust Environmental Life Cycle Assessment of Electric VTOL ...
    We determine the sustainability of eVTOL operation in Urban Air Mobility in terms of greenhouse gas emissions. We show that eVTOL concepts are able to ...
  15. [15]
    Comparing the Cost of EVTOLs and Conventional Helicopters
    Aug 16, 2024 · In contrast, eVTOLs are expected to enter the market at a significantly lower cost, with estimates ranging between $1 million and $5 million.
  16. [16]
    Key challenges for eVTOL certification and airspace integration
    Jan 26, 2025 · From certification hurdles to airspace integration and safety compliance, eVTOL developers face an intricate and shifting regulatory landscape.
  17. [17]
    [PDF] Challenges in Vehicle Safety and Occupant Protection for ...
    This report will focus on one major barrier: the level of safety as it pertains to the framework of eVTOL vehicles. A high level of safety is necessary for the ...
  18. [18]
    Aircraft Propellers – Introduction to Aerospace Flight Vehicles
    Leonardo da Vinci, in the 1480s, sketched the “aerial screw,” as shown in the figure below. This concept was an aerodynamic device derived from an ...
  19. [19]
    Hawker Siddeley XV-6A Kestrel (FGA Mk. 1)
    The first successful experiments with Vertical Takeoff in jets occurred in 1953 with the Rolls-Royce "Flying Bedstead." However, this design was not capable of ...
  20. [20]
    Hawker Siddeley XV-6A Kestrel - Air Force Museum
    An improved version, known as the Harrier, became the world's first operational VSTOL fighter when it entered Royal Air Force (RAF) service in 1969. The ...
  21. [21]
    [PDF] A Perspective on 15 Years of Proof-of-Concept Aircraft Development ...
    - First flight of XV-15 Tilt-Rotor Research Aircraft on May 3, 1977. 31. Page 35. ROTOR MAST. INPUT HERRINGBONE. GEAR STAGE.
  22. [22]
    Pilot Completes First All-Electric, Manned and Untethered Helicopter ...
    Chretien used an ultralight, coaxial-rotor design along with highly flammable Lithium ion polymer pouch cells to accomplish the first flight, ...Missing: Yeair! | Show results with:Yeair!
  23. [23]
    Helicopters & Vertical Flight – Introduction to ... - Eagle Pubs
    Early experimental designs in the 1950s and 1960s, such as the British Hawker Siddeley P. ... Consequently, jet-powered VTOL aircraft, such as the Harrier and F- ...
  24. [24]
    NASA Embraces Urban Air Mobility, Calls for Market Study
    Nov 8, 2017 · We are starting our UAM journey with an objective look at the market potential in order to better understand the issues and gauge the speed with ...Missing: initiative | Show results with:initiative
  25. [25]
    Our Story - Joby Aviation
    Beginning in 2012, Joby was selected to collaborate with NASA on several groundbreaking electric flight projects, including the X-57 and LEAPTech.
  26. [26]
    Archer Aviation - Wikipedia
    History. Archer was founded on October 16, 2018, by Adam Goldstein and Brett Adcock to develop electric vertical takeoff and landing aircraft. The company was ...Brett Adcock · Joby Aviation · eVTOL
  27. [27]
    US Air Force to launch 'Agility Prime' eVTOL development on 27 April
    Apr 15, 2020 · US Air Force to launch 'Agility Prime' eVTOL development on 27 April ... Stay up to date with the latest trends and developments in your area ...
  28. [28]
    Joby Aviation Announces Closing of Business Combination with ...
    Aug 10, 2021 · Joby Aero, Inc. completed its previously announced business combination with Reinvent Technology Partners (RTP) (NYSE: RTP), a special purpose acquisition ...
  29. [29]
    Joby Flies eVTOL At Japan's Expo 2025 Osaka - Aviation Week
    Sep 30, 2025 · Joby Aviation becomes the third electric vertical-takeoff-and-landing (eVTOL) aircraft developer to fly a prototype at the Expo 2025 Osaka, ...Missing: Korea | Show results with:Korea
  30. [30]
    Joby Aviation Announces Closing of $250 Million Investment
    May 27, 2025 · Toyota To Invest $500 Million in Joby Aviation. image. placeholder. image. Toyota and Joby Complete First Air Taxi Flight in Japan. image.
  31. [31]
    Archer lands $1B order from United Airlines and a SPAC deal
    Feb 10, 2021 · The combined company will also hold about $500 million cash in trust. Prior to the SPAC deal, Archer had raised $60 million in a seed and Series ...
  32. [32]
    Archer Receives $10 million Pre-Delivery Payment From United ...
    Aug 10, 2022 · News Details · Archer Receives $10 million Pre-Delivery Payment From United Airlines for 100 eVTOL Aircraft; Advances Path to Commercialization.
  33. [33]
    China green-lights mass production of autonomous flying taxis
    Apr 25, 2024 · While the EH216-S now has approval for mass production, the CAAC issued the Green Aviation Manufacturing Development Outline (2023-2035) in ...
  34. [34]
    [PDF] EHang Holdings Limited Q1 2025 Financial Results – In-Depth
    The cumulative deliveries of EH216-S reached. ~288 units by end of Q1 2025 (216 units delivered in full-year 2024 plus Q1. 2025's 72 units), further solidifying ...<|control11|><|separator|>
  35. [35]
    EHang Reports Second Quarter 2025 Unaudited Financial Results
    Aug 26, 2025 · Total revenues were RMB147.2 million (US$20.5 million), representing ... Additionally, we received over 150 units of new orders, underscoring ...
  36. [36]
    Joby Aviation raises $1.6 billion in SPAC merger at $6.6 billion ...
    Feb 24, 2021 · The transaction, expected to close in Q2 of 2021, will see Joby Aviation listed on the New York Stock Exchange as the company continues working ...Missing: date | Show results with:date
  37. [37]
    Archer Aviation Announces Closing of Business Combination with ...
    Sep 16, 2021 · Archer Aviation Announces Closing of Business Combination with Atlas Crest Investment Corp. to Become A Publicly Traded Company.
  38. [38]
    [PDF] Vertical Aerospace Announces Manufacturing Facilities and ...
    Sep 17, 2025 · Efficient and Cost-Effective Certification Path. Vertical will reaffirm its plan to certify the all-electric VX4 by 2028, requiring $700 million ...
  39. [39]
    Joby Plans to Jumpstart US Operations through White House eVTOL ...
    Santa Cruz, CA – September 12, 2025 – Joby ...Missing: target | Show results with:target
  40. [40]
    Timeline - BETA Technologies
    alia-with-ups-livery. UPS Orders 10 ALIA-250s, Reserves 140 More ALIA will serve as a short-haul and medium-haul cargo aircraft for UPS, enabling new point ...
  41. [41]
    eVTOL orders: 2022 wrapped - Alton Aviation Consultancy
    Operators have ordered around 7,000 eVTOLs as of December 2022. The mass orders are an indication of the strong optimism for the AAM sector, and the ...
  42. [42]
    [PDF] Progress in Distributed Electric Propulsion Vehicles and Technologies
    In addition to TeDP propulsion systems, other DEP systems are also being proposed and developed for conventional takeoff and landing (CTOL), short takeoff ...
  43. [43]
    https://ntrs.nasa.gov/api/citations/20200011461/downloads/20200011461.pdf
  44. [44]
    Electric VTOL Configurations Comparison - MDPI
    Feb 28, 2019 · The vectored thrust eVTOLs have a wing for an efficient cruise and use the same propulsion system for both hover and cruise. The Lilium Jet, the ...
  45. [45]
    Sizing and Analysis of a Lift-Plus-Cruise VTOL Aircraft with ...
    In addition to being insightful, the presented results reinforce the need to incorporate more physics-based analyses, additional stability and control ...
  46. [46]
    [PDF] Flight Dynamics and Control Analysis for Motor Sizing and Failure ...
    This paper demonstrates methods of aircraft sizing, flight dynamics modeling, and performance analysis using a lift+cruise concept vehicle with an electric ...
  47. [47]
    [PDF] Catalyzing Disruptive Mobility Opportunities through ...
    Approximately a threefold reduction in energy can be attributed to the change from an Otto cycle gasoline engine of around 30% thermal efficiency to X-57's ...
  48. [48]
    Midnight Aircraft - Archer
    The Archer is designed for rapid 20-50 mile flights, with a pilot and up to four passengers, and is focused on safe, sustainable, and low noise air travel.
  49. [49]
    Volocopter brings urban air mobility to life
    WE ARE THE FIRST. To bring electric air taxis to Europe. Our VoloCity air taxis will be the first internationally certified eVTOL aircraft.Company · Career · Jet Systems and Volocopter to... · SolutionsMissing: VC1 2016
  50. [50]
    https://ntrs.nasa.gov/api/citations/20190033417/downloads/20190033417.pdf
  51. [51]
    Enabling Lightweight and Efficient Solutions for eVTOL Innovation
    Feb 25, 2025 · For instance, carbon fiber can achieve weight reductions of up to 30% compared to traditional materials like aluminum. This substantial ...
  52. [52]
    Lightweight material solutions for Urban Air Mobility
    Toray's advanced carbon fiber composites are 40% lighter than aluminum, providing the lightest weight, highest strength material solution for eVTOL aircraft, ...Composite Materials For Uam · Resources · Why Toray Materials?
  53. [53]
    [PDF] Practical Conceptual Design of Quieter Urban VTOL Aircraft
    For VTOL, and in particular low-to moderate-disk loading conceptual design, the available resources are more narrowly focused on specific subsystems or analysis ...
  54. [54]
    Impact of lift propeller drag on the performance of eVTOL lift+cruise ...
    Results show that retracting the propellers reduces parasitic drag by 38%. This measured drag reduction is used to estimate the performance of a passenger eVTOL ...
  55. [55]
    [PDF] Small Airplane Issues List - Federal Aviation Administration
    Certain aspects of the emergency use autoland may not be able to be shown to comply with existing pilot-centric 14 CFR part 23 regulations. The applicant should ...
  56. [56]
    WorldWide eVTOL - MIT Technology Roadmaps
    The basic elements of an eVTOL are a battery, electric motors, onboard electronic controllers, and a cruise lift wing. with a seating target of around 6 ...
  57. [57]
    Electric aircraft on the horizon as Monash commercialises rapid ...
    Nov 26, 2024 · With commercial scaling and larger cell production, this technology could deliver energy densities up to 400 Wh/kg.”
  58. [58]
    Driving next-gen battery innovation - Amprius Technologies
    Delivering batteries with up to 450 Wh/kg, our batteries offer unparalleled energy density, enabling longer range and extended runtime across demanding ...
  59. [59]
    Amprius Launches Silicon-Anode Battery For eVTOL - Aviation Week
    Aug 4, 2023 · The Amprius battery cell has a power density of 400 Wh/kg at a C/5 discharge rate typical of electric vehicles.
  60. [60]
    Amprius Unveils Industry Leading Ultra-High-Power-High-Energy ...
    Aug 3, 2023 · The cell achieves an impressive discharge rate of 10C while delivering 400 Wh/kg energy density, a major advancement for electric aviation.
  61. [61]
    Integrated preliminary design of fuel cell propulsion systems for ...
    Jul 14, 2025 · The results show that a target aircraft mission range of 160 km is easily achievable with fuel cells, while the range with batteries alone is ...<|separator|>
  62. [62]
    [PDF] IE-FLIGHT - Intelligent Energy
    Pack specific energy required (Wh/kg). P a ck sp e cifi. c p o w ... This is is essential for maximising range and energy consumption in eVTOL applications.
  63. [63]
    Case study: Fuel cell eVTOL - Vicor Corporation
    The power delivery network utilizes arrays of Vicor DCM™ DC-DC converters connected in parallel, delivering over 10kW of power. Two sets of DCMs with 30V ...
  64. [64]
    The Design Engineer's Guide to Power Conversion in eVTOLs
    High DC-DC conversion efficiency is an enabler for lower temperatures and consequent higher reliability in a minimum package size. Lower losses in auxiliary ...
  65. [65]
    Power Generation Systems for VTOL Aircraft
    Jun 29, 2025 · Expert analysis of eVTOL power systems: battery chemistry, motor technology, and thermal management for Advanced Air Mobility professionals.
  66. [66]
    [PDF] Challenges and key requirements of batteries for electric vertical ...
    We experimentally demonstrate two energy-dense Li-ion battery designs that can recharge adequate energy for 80 km eVTOL trips in 5–10 min and sustain over.
  67. [67]
    Autonomous eVTOL: A summary of researches and challenges
    Tilt-rotor (wing) eVTOL is an aircraft equipped with tiltable DEP assemblies. This configuration performs vertical take-off and landing, hovering and low-speed ...
  68. [68]
    Self-Flying Aircraft: Autonomous Avoidance and Separation
    Oct 17, 2024 · Wisk is dedicated to delivering safe, everyday flight for everyone with its revolutionary all-electric, self-flying eVTOL air taxi.
  69. [69]
    Autonomy - Wisk Aero
    The Multi-Vehicle Supervisor coordinates with Air Traffic Control, initiates flight, and monitors the entire journey via the aircraft's avionics software.<|separator|>
  70. [70]
    Wisk Unveils World's First Self-Flying, Four-Seat, All-Electric, Vertical ...
    Oct 3, 2022 · Wisk's 6th generation, four-passenger, self-flying, eVTOL (electric vertical takeoff and landing) air taxi represents the first-ever autonomous ...
  71. [71]
    NASA's latest aviation solid-state battery design “capable of over ...
    NASA's SABERS battery has over 500 W-hr/kg energy density, uses lithium-sulfur with solid-state electrolyte, and is lightweight, safe, and robust. It has high ...
  72. [72]
    NASA's Sulfur Selenium solid-state battery Technology Impact on ...
    Feb 16, 2025 · The SABERS team has developed a prototype solid-state battery with an energy density of 500 Wh/kg, doubling the performance of conventional ...
  73. [73]
    Prototype solid-state eVTOL battery pushes 2x pilotless airtime
    Nov 13, 2024 · The battery uses metallic lithium as the anode and oxide ceramics as the electrolyte to deliver a claimed energy density of 480 Wh/kg. It's also ...
  74. [74]
    https://www.urbanairmobilitynews.com/batteries/nasas-latest-aviation-solid-state-battery-design-capable-of-over-500-w-hr-kg-output/
  75. [75]
    How 5G technology could contribute to the safe integration of drones
    5G can be used to establish connections to and locate the drones, create corridors in the airspace where drones can safely fly, and even interrupt a drone ...
  76. [76]
    A tour of the eVTOLs at Paris Air Show 2025 - Airport Technology
    Jun 19, 2025 · Out of the eVTOL vehicles in Paris this week, Archer Aviation's Midnight aircraft appears to fly the farthest at 20-50 miles with minimal charge ...Missing: programs | Show results with:programs
  77. [77]
    Urban Air Mobility 2025: Flying Taxis Are Real - David Paul - Medium
    Oct 2, 2025 · These are eVTOLs: electric Vertical Take-Off and Landing aircraft. Most seat 2–6 people. They don't have runways. They don't burn fuel. And they ...
  78. [78]
    Vertiport integration - piloting the rise of an air transport phenomenon
    Oct 9, 2025 · But, industry experts predict that approximately 980 vertiports will actually be constructed between 2025 and 2029. The total investment ...
  79. [79]
    Joby to Bring Blade's Air Mobility Services to the Uber App
    Sep 10, 2025 · Joby acquired Blade's passenger business in August 2025 and intends to capitalize on Blade's existing infrastructure and decade of experience ...Missing: SF | Show results with:SF
  80. [80]
    Aviation startup seeks to bring air taxis to Los Angeles
    Sep 26, 2024 · Joby's goal is to make shorter-distance air travel accessible and convenient for everyday city dwellers, Allison said. The company expects to ...
  81. [81]
    Archer Begins Test Flights in Abu Dhabi
    Jul 2, 2025 · Archer Begins Test Flights in Abu Dhabi. July 2, 2025. Archer's Midnight eVTOL aircraft flew today at Al ...
  82. [82]
    UAE's first electric air taxi trial flight expected before 2025: Archer
    May 20, 2025 · The trial flights of the company's first fully electric vertical takeoff and landing (eVTOL) aircraft “Midnight,” is set to begin before the end of 2025.
  83. [83]
    Archer, Joby Advance UAE Commercial Launches In 2026
    Oct 6, 2025 · The first vertiport—at Dubai International—is on track for completion in early 2026. Archer, on the other hand, is targeting Abu Dhabi in ...
  84. [84]
    Electric Air Taxi Company Supported by American Airlines Seeks to ...
    Jul 2, 2025 · Simpson estimates that initial fares will be approximately $2 per seat per kilometer, a price point comparable to premium ride-hailing services ...
  85. [85]
    Mode choice modeling for an electric vertical takeoff and landing ...
    Uber is targeting eVTOL prices of 5.73 USD per passenger mile (pax-mile) at launch, 1.84 USD per pax-mile in the near term, and 0.44 USD per pax-mile in the ...
  86. [86]
    Joby to integrate Blade's air mobility service into Uber app - AeroTime
    Sep 11, 2025 · Joby Aviation and Uber Technologies said they plan to make Blade's passenger flights bookable directly through the Uber app as soon as 2026. ...
  87. [87]
    France's Council of State gives green light for Volocopter flights at ...
    Volocopter eVTOL flights are due to start in Paris in the next few days, in time for the summer Olympic Games. For more information. Olympic Games: green ...Missing: pilot | Show results with:pilot
  88. [88]
    [PDF] The Beginning of eVTOL Aircraft & Urban Air Mobility
    May 14, 2021 · By 2025, we might start seeing some cities commence air taxi operations using eVTOL on a limited scale. For example, Singapore is already ...
  89. [89]
    ERC launches eVTOL concept to provide faster and more affordable ...
    Jul 7, 2024 · eVTOLs are three times faster than ambulances and three times more cost-effective than helicopters.” The company is 100% focused on medical ...Missing: 2x | Show results with:2x
  90. [90]
    AFWERX Agility Prime partners with Kitty Hawk in first medevac ...
    Jun 8, 2021 · AFWERX Agility Prime partners with Kitty Hawk in first medevac exercise with electric aircraft. Published June 8, 2021; By Air Force Research ...
  91. [91]
    Urban Aeronautics announces first pre-orders of its EMS CityHawk ...
    It will accommodate a pilot, a patient plus companion, two EMS personnel, and a complete suite of onboard life support equipment. “We are excited to become ...
  92. [92]
    Volocopter eVTOL Moves Closer to Emergency Medical Service ...
    Jul 29, 2025 · ADAC Luftrettung will conduct practical integration of the VoloCity into live rescue scenarios, gaining invaluable operational insights as it ...Missing: onboard life-
  93. [93]
    Revolutionizing Emergency Response: How eVTOL Technology ...
    May 8, 2025 · This collaboration aims to demonstrate that eVTOLs are not just a futuristic mode of transportation but a critical tool for saving lives in time ...Missing: onboard | Show results with:onboard
  94. [94]
    Pivotal's eVTOL Aircraft Draws Enthusiastic Response from ...
    Aug 6, 2025 · Pivotal's eVTOL Aircraft Draws Enthusiastic Response from California Fire Agencies in Multi- Agency Demonstration Series · Public Safety ...
  95. [95]
    Use Case: Critical Infrastructure - Starling Systems
    From powerlines to pipelines, the Pathfinder-X FW-eVTOL is designed to enhance the efficiency, safety, and precision of critical infrastructure monitoring.
  96. [96]
    Wildlife Conservation and Surveillance - ALTI Unmanned
    Protect wildlife with ALTI's fully-electric VTOL UAS. Monitor poaching, track animal movements, and safeguard game reserves with advanced aerial surveillance.
  97. [97]
    Demonstration for Advanced Air Mobility (AAM) in Chiba Prefecture
    Feb 21, 2025 · The demonstration aims to evaluate the potential of AAM for improving logistics efficiency, addressing labor shortages and testing emergency transportation ...
  98. [98]
    Mexico's eVTOL Opportunity: Soaring to New Heights
    Jun 16, 2025 · A study by NASA suggests that eVTOL air ambulances could cut medical evacuation times by 40-60% compared to traditional helicopters. 3. Tourism ...
  99. [99]
    Army moves to rapidly field Anduril's Ghost-X drones via Replicator
    Oct 17, 2024 · Defense Department leadership selected Anduril-made, quiet and modular Ghost-X aerial drones to be quickly mass-produced in the second tranche ...Missing: eVTOL | Show results with:eVTOL
  100. [100]
    Military Midnight: 5 Fast Facts On The New Archer & Anduril VTOL ...
    Dec 17, 2024 · Archer and Anduril will develop a new hybrid VTOL aircraft for the military as the DoD becomes more interested in emerging eVTOL aircraft.
  101. [101]
    Joby extends Agility Prime contract for eVTOL aircraft delivery
    May 2, 2023 · Joby's contract with the US Air Force is now valued at up to $131 million following a $55 million extension that includes provision of up to nine Joby aircraft.<|separator|>
  102. [102]
    Will Military Applications Be the Catalyst for eVTOL Industry Growth?
    Aug 12, 2025 · Archer's rapid military expansion has been further bolstered by new capital infusions, including a $300M funding round in early 2025 earmarked ...<|control11|><|separator|>
  103. [103]
    Lift Aircraft Hexa EVTOL Drone Like Vehicle for ... - Business Insider
    Sep 27, 2020 · The company is also selling a small number of Hexas to buyers who will then rent them out. They cost $495,000, and only five are still available ...
  104. [104]
    Unbelievable $500,000 human drone is completely made out of ...
    Oct 5, 2025 · You can book a flight on Hexa. As you might imagine, Hexa doesn't come cheap – the human drone has a price tag of $500,000.
  105. [105]
    Jetson Unveils Jetson Air Games Concept with Electrifying Aerial ...
    Oct 13, 2025 · Jetson ONE pilots fly the world's first eVTOL race through a custom pylon course in Tuscany, showcasing precision flight, teamwork, and a bold ...
  106. [106]
    World's first crewed all-electric air race takes place in Ohio - Zag Daily
    Oct 14, 2025 · The weekend featured record-setting electric flights, the world's first crewed all-electric air race, and a STEM education day aimed at engaging ...
  107. [107]
    Three aircraft participate in the first all-electric Pulitzer Trophy air race
    Oct 17, 2025 · The event, marking its centenary in 2025, recently opened its doors to all-electric aircraft for the first time in its history.<|separator|>
  108. [108]
    The first 'true' electric flying car could be here by the end of 2025
    Jun 6, 2025 · “If everything goes according to plan, and no major external changes, Alef plans to start production of the first vehicle by the end of 2025 or ...
  109. [109]
    Flying car designed to hop across the Philippines ... - Live Science
    Feb 29, 2024 · The Luft Pinoy is an electric minivan combined with a hydrogen-powered eVTOL system to create a flying car that's practical for island-hopping.
  110. [110]
    Inside the messy ethics of making war with machines
    Aug 16, 2023 · Inside the messy ethics of making war with machines. AI is making its way into decision-making in battle. Who's to blame when something goes wrong?
  111. [111]
    Pivotal Opens Sales of Helix Light eVTOL aircraft in U.S.
    The smart aircraft packed with safety features requires no FAA pilot certification. Las Vegas, NV, January 8, 2024 -- Pivotal, the market leader in light ...
  112. [112]
    With New Rule, FAA is Ready for Air Travel of the Future
    Oct 22, 2024 · The Federal Aviation Administration (FAA) is ready for powered lift, which will be the first completely new category of civil aircraft since helicopters were ...<|control11|><|separator|>
  113. [113]
    Electric Vertical Takeoff and Landing and Advanced Air Mobility ...
    Sep 16, 2025 · Notice of the establishment of the Electric Vertical Takeoff and Landing (eVTOL) and Advanced Air Mobility (AAM) Integration Pilot Program (eIPP) ...Missing: BVLOS | Show results with:BVLOS<|control11|><|separator|>
  114. [114]
    FAA plans public eVTOL trials - AOPA
    Sep 18, 2025 · Leading eVTOL developers Joby Aviation Inc. and Archer Aviation Inc. have said they will participate in the program with goals that include ...Missing: medevac | Show results with:medevac
  115. [115]
    Special Class Airworthiness Criteria for the Joby Aero, Inc. Model ...
    Mar 8, 2024 · This document sets forth the airworthiness criteria the FAA finds to be appropriate and applicable for the powered-lift design.
  116. [116]
    https://www.technologyreview.com/2023/08/16/1077386/war-machines/
  117. [117]
    Modernization of Special Airworthiness Certification - Federal Register
    Jul 24, 2025 · SUMMARY: FAA is amending rules for the manufacture, certification, operation, maintenance, and alteration of light-sport aircraft.
  118. [118]
    [PDF] MOSAIC Final Rule Issuance - Federal Aviation Administration
    Jul 18, 2025 · This final rule establishes requirements for aircraft, other than unmanned aircraft, that hold special airworthiness certificates, airmen that ...
  119. [119]
    [PDF] EB 105A, Vertiport Design, Supplemental Guidance to AC 150/5390 ...
    Dec 27, 2024 · With the introduction of eVTOL aircraft, electrical charging loads will be added at the vertiports along with building loads and distributed ...
  120. [120]
    [PDF] Advisory Circular 150/5360-13A, Airport Terminal Planning, 13 July ...
    Jul 13, 2018 · 1 Purpose. This advisory circular (AC) provides updated guidance on the process of planning airport passenger terminal facilities.
  121. [121]
    Unmanned Aircraft System Traffic Management (UTM)
    May 2, 2025 · UTM is a collaborative ecosystem for safely managing unmanned aircraft (UA or drone) operations at low altitudes.
  122. [122]
    Special Condition for VTOL and Means of Compliance - EASA
    Jul 18, 2025 · On 11 July 2025 this page was also updated with the final release of the Fourth Publication of Means of Compliance with the Special Condition ...
  123. [123]
    [PDF] MOC SC VTOL - EASA
    Jul 11, 2025 · MOC-4 SC-VTOL, contains the fourth publication of MOCs with the Special. Condition VTOL. It proposes new MOCs, as well as supplements and ...
  124. [124]
    [PDF] MOC SC VTOL - EASA
    Jul 18, 2025 · MOC-5 SC-VTOL, contains the fifth publication of MOCs with the Special. Condition VTOL. It proposes new MOCs, as well as supplements and ...
  125. [125]
    EASA steps up regulatory framework for Innovative Air Mobility
    Jul 9, 2025 · The guidance emphasises preflight preparation, availability of landing sites (vertiports, diversion locations), and fuel/energy management.Missing: 20-14 | Show results with:20-14
  126. [126]
    EASA Proposes Noise Certification Rule for VTOL Aircraft
    Aug 25, 2025 · If adopted, noise limits for takeoff, overflight, and approach would mirror those currently used for helicopters under ICAO Annex 16 Chapter 8.
  127. [127]
    Lilium Builds Certification Test Facility for eVTOL Aircraft
    May 17, 2024 · It intends to start flight testing in late 2024 as it works towards achieving EASA type certification by the end of 2025 and initial deliveries ...
  128. [128]
    Vertical Aerospace makes piloted eVTOL flight in open airspace
    May 27, 2025 · The CAA is working closely with the European Union Aviation Safety Agency (EASA) for their concurrent validation and certifying the VX4 to the ...Missing: 2X | Show results with:2X
  129. [129]
    The World's First Flying Taxi Hub Takes Shape in the English Midlands
    May 13, 2022 · More than 10,000 ticket-only visitors have so far explored the Coventry hub since it opened on April 25, with thousands more craning their necks ...Missing: trials | Show results with:trials
  130. [130]
    Paris Region Advanced Air Mobility Alliance
    Together, they have built a new alliance.One that encompasses the European Union Aviation Safety Agency, French civil aviation authorities, major industrial ...
  131. [131]
    eVTOL Aircraft Market Size, Share & Industry Trends 2030
    Sep 26, 2025 · The eVTOL aircraft market remains highly fragmented, with more than 800 active programs at end-2024, yet few possess the USD 1-2 billion ...
  132. [132]
    FAA Statement on eVTOL Aircraft Certification
    Jun 10, 2024 · We're committed to ensuring the safety of the flying public both at home and abroad. Review the Advisory Circular: AC 21.17-4 Type Certification ...
  133. [133]
    EASA and FAA Advance eVTOL Guidance
    Jun 28, 2024 · EASA both announced progress in their efforts to streamline and standardize the certification of electric vertical takeoff and landing (eVTOL) aircraft and ...
  134. [134]
    EHang Secures Production Certificate from CAAC, Clearing Path for ...
    EHang has successfully obtained the PC for its EH216-S passenger-carrying pilotless eVTOL aircraft issued by the CAAC.
  135. [135]
    Chinese eVTOL maker Ehang gets clearance for paid commercial ...
    Mar 31, 2025 · Ehang has received Air Operator Certificates for its EH216-S eVTOL, giving it regulatory green light for paid operations.
  136. [136]
    Japan sets out four-phase vision for full implementation of flying cars ...
    Sep 1, 2025 · Ultimately, MLIT expects flying cars to be a major emerging market in the aviation industry, with the global market size predicted to be ...
  137. [137]
    Japan's Low Altitude Economy Blueprint: MLIT's Path to Low Altitude ...
    Aug 30, 2025 · Japan's Ministry of Land, Infrastructure, Transport and Tourism unveils a four-phase roadmap for advanced air mobility, from Expo 2025
  138. [138]
    CASA expands unmanned airspace trial areas around Sydney ...
    The expansion of the trial means more remotely piloted aircraft operator's certificate (ReOC) holders will be able to use a participating CASA-verified drone ...
  139. [139]
    UAE GCAA Unveils New Regulatory Framework for Vertical Flight ...
    Jun 30, 2025 · The new framework, CAR AGA PART VFI, is a comprehensive, unified regulation for all vertical flight infrastructure, replacing CAR HVD, with new ...<|separator|>
  140. [140]
    Archer Secures Design Approval For UAE's First Hybrid Heliport ...
    Apr 23, 2025 · The General Civil Aviation Agency (GCAA) has approved the design for the planned transformation of an Abu Dhabi Cruise Terminal helipad into a hybrid heliport.
  141. [141]
    [PDF] The International Civil Aviation Organization's CAEP/13 aircraft ...
    For subsonic aircraft, starting on January 1, 2029, the proposed Chapter 16 standards will require an additional margin of 6 effective perceived noise decibels ...Missing: eVTOL divergent challenges
  142. [142]
    [PDF] Regulatory challenges and harmonization needs for electric vertical ...
    Aug 25, 2025 · The majority of the requirements in the airworthiness criteria or special condition were transcript from 14 CFR Part 23 amendment 64, 14 CFR ...
  143. [143]
    [PDF] Roadmap for Advanced Air Mobility Aircraft type certification
    Existing regulations: Existing NAA Network domestic regulations form the basis upon which bilateral agreements can mutually recognize comparable certification ...
  144. [144]
    Joby Aviation S4 (production prototype) - eVTOL.news
    The Joby Aviation S4 eVTOL passenger and cargo production prototype is not expected to be certified for commercial operations until 2025 and the company is ...
  145. [145]
    Joby S4 makes historic piloted tilt-rotor eVTOL transition flight
    Apr 29, 2025 · Joby Aviation achieved a major milestone on April 22, 2025 when it became the first company to fly an all-electric tilt-rotor eVTOL with a pilot aboard.Missing: details | Show results with:details
  146. [146]
    Joby Powers Up First FAA-conforming eVTOL Aircraft Prototype | AIN
    November 6, 2025. Joby Aviation has commenced power-on testing of the first of several aircraft built for FAA type inspection authorization (TIA).Missing: no | Show results with:no
  147. [147]
    Archer Aviation Midnight (production aircraft) - eVTOL.news
    United Airlines announced that it has placed a $1 billion USD order for Archer's eVTOL aircraft with an option to purchase $500,000.00 USD more aircraft. United ...
  148. [148]
    Archer's Midnight Flight Test Program Reaches Record Heights
    Sep 22, 2025 · (NYSE: ACHR) today announced that its Midnight aircraft successfully completed its highest altitude flight to date, reaching altitudes of 7,000 ...
  149. [149]
    Archer demo'd eVTOL flights in CA, and they were so quiet! [Video]
    Oct 6, 2025 · As promised, Archer Aviation completed display flights with its Midnight eVTOL during both days of the 2025 California International Air Show in ...
  150. [150]
    Beta Technologies ALIA-250 (prototype) - eVTOL.news
    The first aircraft are expected to be delivered to UPS in 2024. UPS also stated they have a growing fleet of electric vehicles and plans to charge both ground ...
  151. [151]
    Beta Seeks Wall Street Backing for Growing Electric Aircraft Family
    U.S.-based Beta is working towards type certification for its Alia CX300 airplane and Alia 250 eVTOL, which respectively operate in conventional ...
  152. [152]
    GE Aerospace and BETA Technologies partner to advance hybrid ...
    GE Aerospace and BETA Technologies partner to advance hybrid electric flight. September 4, 2025. Share. BETA's A250 eVTOL takes flight at company ...<|separator|>
  153. [153]
    EHang EH216-S (production model) - eVTOL.news
    October 13, 2023, EHang announced it became the first company in the world to receive an airworthiness type certificate for their EH216-S autonomous two ...
  154. [154]
    EHang Achieves First Pilotless Human-Carrying eVTOL Flight in ...
    The EH216-S is the world's first pilotless, human-carrying electric vertical takeoff and landing ("eVTOL") aircraft to receive a type ...
  155. [155]
    EHang Partners with China Road and Bridge Corporation to Expand ...
    Sep 5, 2025 · EHang Partners with China Road and Bridge Corporation to Expand Global Market, Debuts EH216-S First Flight in Africa. September 5, 2025. PDF ...Missing: 2024 | Show results with:2024
  156. [156]
    Meet the VX4 · Vertical Aerospace
    The VX4 is an electric aircraft with a spacious cabin, designed for safety, low noise, and a modular design, using tilt-shift propellers.
  157. [157]
    [PDF] Vertical Aerospace completes world first public airport-to-airport flight
    Jul 17, 2025 · The VX4 prototype flew 17 miles from Cotswold Airport to RAF Fairford, reaching 115mph and 1800ft, marking the first landing at a public ...
  158. [158]
    Vertical Aerospace, Honeywell Expand Partnership To Bring VX4 ...
    May 8, 2025 · Honeywell and Vertical will work together to certify two of the most critical systems on the VX4 that make it safer and easier to fly.<|separator|>
  159. [159]
    Archer Beats European Bid to Buy Lilium's eVTOL Patent Portfolio
    Oct 16, 2025 · Archer Aviation is acquiring about 300 patents from Lilium, an insolvent eVTOL aircraft manufacturer and former competitor, for €18 million ...
  160. [160]
    Eve Air Mobility Unveils First Full-Scale eVTOL Prototype
    Eve Announces Additional US$35 Million from BNDES Line to Support eVTOL Development in 2025. Learn more. Eve Air Mobility's Final eVTOL Airworthiness Criteria ...Eve Air Mobility Twenty-Year... · Eve Air Mobility Showcases... · Eve Air Mobility Secures...
  161. [161]
    Meet Gen 6 | Wisk Aero
    Wisk is dedicated to delivering safe, everyday flight for everyone with its revolutionary all-electric, self-flying eVTOL air taxi.
  162. [162]
    Wisk and Signature Aviation Partner to Accelerate Autonomous ...
    Aug 13, 2025 · Wisk is developing the first autonomous, passenger-carrying electric vertical takeoff and landing (eVTOL) air taxi in the U.S. Wisk is a wholly- ...
  163. [163]
    Electric VTOL Aircraft Market Size & Share Trends, 2033
    Oct 13, 2025 · As of 2024, over 750 eVTOL aircraft prototypes have been developed globally, reflecting a significant acceleration in innovation and ...
  164. [164]
    https://www.ainonline.com/aviation-news/futureflight/2025-10-15/archer-obtains-liliums-evtol-patent-portfolio
  165. [165]
    eVTOL Aircraft Market Size, Share and Trends, 2025 To 2030
    The eVTOL aircraft market size is valued at USD 0.76 billion in 2024 and is projected to reach USD 4.67 billion by 2030, at a CAGR of 35.3 % from 2024 to 2030.
  166. [166]
    Future air mobility funding still flows, although down from 2021
    Jul 19, 2022 · The year 2021 saw $2.8 billion raised in total SPAC-related funds, among four FAM companies (Archer Aviation, Joby Aviation, Lilium Air ...
  167. [167]
    Horizon Bets on Extended Range with Hybrid Cavorite X7
    Apr 28, 2025 · The hybrid-electric design will provide nearly 500 miles (800 km) of range, with reserves, compared to batteryelectric aircraft. Joby says its ...Missing: adoption | Show results with:adoption
  168. [168]
    The Battery Supply Problems Faced by Electric Air Taxis
    Feb 3, 2020 · Designers and manufacturers of electric air taxis may run into issues sourcing the batteries they want at reasonable prices.Missing: challenges | Show results with:challenges
  169. [169]
    The Best eVTOL Stock to Invest $2,000 in Right Now - Nasdaq
    Jan 23, 2025 · But today, all of those SPAC-backed eVTOL stocks trade far below their all-time highs. The market's enthusiasm fizzled out as these ...
  170. [170]
    So, You Want to Build a Vertiport. Here's What It Will Cost to Build ...
    Apr 27, 2025 · Modular vertiports can range in cost from US$100,000 to US$275,000 · Vertibases can cost $US500,000-US$800,000 to build with annual operating ...
  171. [171]
    eVTOL Infrastructure Costs: A $4 for Every $1 Aircraft - LinkedIn
    Oct 7, 2025 · THE INFRASTRUCTURE REALITY: The Hidden Cost of eVTOL Deployment For every dollar that an OEM spends to build an eVTOL, it's gonna take $4 ...
  172. [172]
    eVTOL Aircraft Market Growth Reflecting at 37%
    Jun 24, 2025 · The global eVTOL aircraft market was valued at USD 2.04 billion in 2024. It is projected to exceed USD 40.63 billion by 2034, reflecting a ...
  173. [173]
    Advanced air mobility: Achieving scale for value realization - Deloitte
    Dec 11, 2023 · Maintenance costs as a percentage of operating cost may be 50% lower when compared to traditional helicopters. ... operations and reduce costs.