KULR and Robinson Collaborate on Battery System for eR66 Electric Helicopter

This article is based on an official press release from KULR Technology Group, Inc. and Robinson Helicopter Company.

On March 26, 2026, KULR Technology Group and Robinson Helicopter Company (RHC) announced a strategic co-development collaboration aimed at advancing Electric-Aviation. According to the official press release, the partnership will focus on developing a next-generation, high-performance battery system for the eR66, a battery-electric demonstrator variant of Robinson’s widely used R66 turbine Helicopters.

Under the new agreement, KULR will serve as the battery architecture co-developer for the eR66 platform. The Houston-based technology company will design and integrate a lightweight battery system utilizing its proprietary thermal management and safety technologies, which were originally developed for human-rated spaceflight applications. The companies have targeted late 2026 for their initial program milestones.

The collaboration seeks to drive critical improvements in energy density and thermal stability while establishing a domestic supply chain for electric aviation components. By leveraging RHC’s Manufacturing capabilities in Torrance, California, and KULR’s engineering operations in Texas, the initiative aims to support the broader decarbonization of the aerospace sector.

The eR66 Program and the Pragmatic Path to Electric Flight

Retrofitting a Proven Platform

The eR66 project represents a distinct approach to electric aviation. Rather than building an entirely new eVTOL aircraft from the ground up, RHC is retrofitting its standard R66, a light, gas-turbine helicopter introduced in 2012 that has seen over 1,500 units built to date, according to industry research data. By utilizing an already FAA-certified airframe, RHC intends to bypass many of the infrastructure and supply chain hurdles currently facing novel eVTOL Startups.

This development builds upon RHC’s ongoing electrification efforts. Industry reports note that in July 2025, RHC announced a joint agreement with electric propulsion company magniX to provide the HeliStorm electric engine and Samson batteries for the eR66 demonstrator. The March 2026 agreement brings KULR into the fold specifically to design the lightweight integration and safety protocols required to make the battery system viable for rigorous flight conditions.

While the standard gas-turbine R66 boasts a range of approximately 650 kilometers, research estimates place the eR66’s range at around 185 kilometers. RHC leadership has indicated that this shorter range is highly adequate for targeted, short-haul missions.

Space-Grade Safety for Aviation Batteries

KULR’s Thermal Management Expertise

Balancing high energy density with low weight remains the primary engineering challenge in electric aviation, particularly concerning thermal runaway, a critical safety risk where battery cells overheat and catch fire. To address this, KULR is implementing its KULR ONE platform. According to company data, this architecture utilizes fibercore flame arrestors, ablative shielding, and sidewall rupture protection to ensure fail-safe operations.

In the press release, KULR CTO Dr. Will Walker emphasized the importance of their engineering background in overcoming these hurdles.

“Our engineering team’s extensive background in designing fail-safe batteries for human rated applications will be critical to achieving the rigorous performance and Certification goals,” Walker stated in the release.

KULR, which currently holds a market capitalization of approximately $114 million and has reported 72% revenue growth over the trailing twelve months according to recent financial data, brings NASA-qualified technology to the commercial rotorcraft sector. KULR CEO Michael Mo noted that their battery systems were designed from day one for dual use, proving their architecture’s viability in rotorcraft.

Targeting Specialized Missions and Sustainability

Organ Transport and the Circular Economy

A primary focus for the eR66 is high-demand, short-haul applications such as rapid organ and tissue transport. In Emergency Medical Services (EMS), speed is critical, but noise and emissions often restrict traditional helicopter operations in dense urban environments. By eliminating the Rolls-Royce gas turbine, the electric powertrain is expected to cut up to a third of the aircraft’s noise, specifically the high-pitch turbine whine.

David Smith, who became President and CEO of RHC in February 2024, highlighted the operational benefits of the electric variant in the company’s announcement.

“For use cases like rapid organ and tissue transport, the reduced acoustic signature and zero-emission profile ensure that time-sensitive, low-emission deliveries are faster, quieter, and more sustainable,” Smith said.

Beyond zero-emission flight, the partnership is also pioneering circular economy principles in aviation. The companies announced plans to develop “second life” applications for the battery systems post-flight. This means the batteries are designed for a primary flight cycle in the eR66, followed by a certified second life in other applications, thereby maximizing the lifecycle of the hardware and reducing environmental waste.

AirPro News analysis

We view the RHC and KULR collaboration as a highly pragmatic counter-narrative to the current eVTOL hype cycle. While billions of dollars are being poured into uncertified, ground-up air taxi designs that require entirely new infrastructure, RHC is leveraging the world’s most popular civil helicopter platform. By electrifying the R66, operators will be able to utilize existing helipads, established pilot training frameworks, and current maintenance networks. Furthermore, bringing in KULR to adapt NASA-grade thermal shielding directly addresses the FAA’s stringent safety concerns regarding lithium-ion battery fires in aviation. If successful, this retrofit model could offer a significantly faster and more capital-efficient path to market for commercial electric flight than clean-sheet eVTOL designs.

Frequently Asked Questions

What is the eR66?

The eR66 is a battery-electric demonstrator helicopter based on Robinson Helicopter Company’s proven R66 gas-turbine platform. It is designed to offer reliable, low-noise, and zero-emission performance for short-haul flights.

What is KULR’s role in the partnership?

KULR Technology Group is serving as the battery architecture co-developer. They are responsible for designing and integrating a lightweight, high-performance battery system that utilizes their proprietary thermal management and safety technologies to prevent thermal runaway.

When will the eR66 reach its first milestones?

According to the joint press release, the companies are targeting late 2026 for their initial program milestones.

Sources: KULR Technology Group and Robinson Helicopter Company Press Release