KULR to co-develop battery system for Robinson’s eR66 electric helicopter demonstrator

KULR Technology Group says it has signed an agreement with Robinson Helicopter to co-develop the battery system for the eR66, a battery-electric demonstrator based on Robinson’s R66 helicopter platform.

Under the agreement, KULR will design and integrate a lightweight battery architecture for the aircraft using its own battery safety and thermal-management technologies. The work will focus on improving energy density, thermal stability and operational efficiency for the eR66, while also establishing rigorous testing and development protocols aimed at aviation safety. Initial program milestones are targeted for late 2026.

KULR says the agreement sets up a broader joint research, engineering and prototyping effort, combining Robinson’s California manufacturing base with KULR’s Texas operations. The goals include lowering long-term operating costs, strengthening domestic aerospace supply chains and exploring second-life uses for the battery systems after flight service.

“The development of a battery electric R66 helicopter alongside KULR represents an important shift in how we serve our global commercial and civil operators,” said Robinson Helicopter president and CEO David Smith. KULR CEO Michael Mo said the company’s battery systems were “designed from day one for dual use: a primary flight cycle and a certified second life.”

Electric aviation is still a brutal engineering tradeoff between energy density, weight, thermal control and safety. KULR CTO Will Walker acknowledged as much, saying the central challenge is balancing high energy density and low weight with “uncompromising safety.”

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ChargeUp’s 2026 cohort adds 10 battery and energy storage startups to New Energy New York accelerator

Binghamton University, the Koffman Southern Tier Incubator and New Energy New York have selected 10 companies for the 2026 cohort of the ChargeUp Accelerator, a startup program focused on battery and energy storage technologies.

The group says this is the biggest ChargeUp cohort yet and the third year of the accelerator. The selected companies span a pretty wide slice of the battery and energy storage stack, from mineral extraction and cathode materials to thermal batteries, mobile storage systems and battery manufacturing software. The 2026 cohort includes:

• BUCKSTOP: An urban mining platform using proprietary datasets and machine learning models to transform how companies approach their assets and financial decisions.
• EELI Technology, Inc.: Electrochemical technology that could transform mining by tapping into the billions of tons of lithium trapped in sources once considered impossible to mine, with a process that reduces carbon emissions, water use, time and cost.
• MicroEra Power: First-generation thermal battery product architecture that will enable greater control over heating and cooling at lower costs and carbon footprints.
• Molhill, Inc.: Specialty biochemicals that improve mineral separation and processing while reducing ecological footprints, with applications in synthesized or regenerative active cathode materials
• NDB, Inc.: A novel nuclear diamond battery that converts recycled nuclear waste into clean energy with a lifetime of decades, allowing medical, defense and aerospace industries, as well as Internet of Things applications, to eliminate battery replacement.
• Power 3D: 3D-printed battery technology with ultra-thick electrodes that maximize the amount of potential energy storing material in a battery, enabling higher energy density with applications in wearables, the Internet of Things and medical devices.
• Power Up Connect: Mobile, self-rechargeable trailer-mounted battery energy storage systems that can be integrated with existing infrastructures, with a variety of potential use-cases — including construction sites, microgrids and emergency shelters.
• QOR Technologies, Inc.: An artificial intelligence platform that can correct issues on the factory floor, from the beginning of the manufacturing process to the end, reducing human error while taking measures to prevent future anomalies.
• Ranial Systems, Inc.: A unique computing platform that integrates artificial intelligence to offer predictive and real-time operation monitoring across multiple energy storage applications, improving the safety and resiliency of microgrids and renewable energy infrastructure.
• WattUP Energy: A high-performance battery offering two times the energy density and three times the power density of conventional lithium-ion batteries, using earth-abundant materials to transform transportation in the land, sea and sky.

Artemis Technologies is participating as an honorary company. Its advanced zero-emission hydrofoil propulsion platform uses high-power electric drivetrains and hydrodynamic lift to elevate vessels above the water’s surface, significantly reducing drag, improving energy efficiency, and redefining performance benchmarks for commercial maritime transport.

ChargeUp says the program runs for seven months, from April through October, and combines curriculum, investor access, mentoring and technical-development support. Company leaders will receive more than 200 hours of curriculum, $25,000 in funding, and up to $100,000 for technical development. The accelerator is run through Binghamton University’s Koffman Southern Tier Incubator and draws on methods used in two other NextCorps programs: Luminate and the Manufacturing Accelerator.

The bigger story here is regional cluster-building. New Energy New York has been trying to turn Upstate New York into a real battery innovation hub, and programs like ChargeUp are one of the mechanisms for doing that. Earlier cohort companies include Ateios Systems, Amel Energy and Fermi Energy.

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Kodak and Ateios extend RaiCore battery electrodes to LFP, NMC, LCO with PFAS-free verification

Ateios Systems and Kodak say they have expanded the RaiCore battery electrode platform to three of the industry’s biggest cathode chemistries—lithium iron phosphate (LFP), nickel manganese cobalt (NMC) and lithium cobalt oxide (LCO)—while also securing third-party verification that the electrodes are PFAS-free.

The companies say independent testing found total organic fluorine levels below the analytical reporting limit of 20 parts per million in RaiCore composite electrode formulations for LCO, LFP, NMC and graphite. That is well below the 100 ppm regulatory threshold for PFAS-containing materials, according to the announcement. Ateios says this keeps RaiCore in the unusual position of being the only battery electrode platform verified by an independent third party as PFAS-free.

At the same time, Ateios introduced what it calls its fourth-generation RaiCore electrodes. The company says the updated formulation pushes active-material loading above 98%, improves the conductive additive network and improves rheology for high-speed gap coating, while staying compatible with existing battery manufacturing lines. That last part is probably the commercial hook: battery makers do not want to rebuild a factory just to adopt a new electrode recipe. Ateios also says LCO and LFP electrodes are already in pilot programs with leading battery OEMs.

The Kodak angle is manufacturing. Kodak says it is contributing its multilayer coating expertise to help scale production-grade battery cells across multiple chemistries. According to the release, support from the US National Science Foundation Energy Storage Engine in Upstate New York helped accelerate validation of RaiCore for LFP cathodes and scale fabrication of production-grade cells through grants including the group’s SuperBoost Technology Translation program.

“With the support of our customers, Kodak, and key materials suppliers, we continue pushing the frontier of battery production speed, performance, and sustainability,” said Ateios founder and CEO Rajan Kumar. Kodak Executive Chairman and CEO Jim Continenza said the company is contributing “precise, high-speed multilayer coating” capabilities to the platform. Ateios says qualification samples are now emerging from Kodak’s development and production coating machine.

Source: Kodak

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Monta acquires ABB Nordic’s EV charge point management software customer contracts through Vourity deal

Monta says it has acquired the charge point management software customer contracts operated by Vourity, ABB E-mobility’s Nordic subsidiary, in a move that expands the company’s CPMS footprint in Northern Europe.

The deal is not an acquisition of ABB E-mobility itself or of Vourity as a whole—it is specifically a transfer of CPMS software customer contracts. According to Monta, ABB E-mobility selected Monta to take over those relationships because it viewed the company as the strongest CPMS option in the Nordics for continuity of service.

Charge point management software is the layer that operators use to monitor chargers, manage access, control pricing, handle uptime issues and, increasingly, tie charging hardware into broader energy-management systems. So while this is a software-contract story, it matters at the infrastructure level: CPMS platforms are becoming one of the real control points in the EV charging business, and the market has been drifting toward consolidation for a while now.

Monta is leaning into that trend. The company says the acquisition is part of its broader European consolidation strategy and argues that operators increasingly want to standardize on established, full-featured platforms rather than smaller regional tools. Monta says its platform now supervises more than 260,000 commercial charge points, supports more than 800 charge point models, and gives clients and drivers access to more than 1.3 million public charge points across Europe and the US. The company also says it operates directly in the US and 11 European countries, and in 32 markets total through partners.

“This acquisition reflects our ambition to be the leading CPMS platform in Europe,” said CEO Casper Rasmussen. Monta says the transition will bring the acquired customers onto its own software platform, including its newer Monta AI capabilities, which it says are designed to help operators diagnose issues faster and run charging networks more efficiently.

Source: Monta

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Vietnamese firm V-Green to invest $380 million to deploy nationwide EV charging network

V-GREEN, an EV charging infrastructure provider that was spun off from Vingroup, plans to invest 10 trillion Vietnamese Dong (around $380 million) to deploy EV charging stations in Vietnam.

The Vietnam News Agency reported that the company plans to build 99 EV charging hubs along national and provincial highways across Vietnam by the end of this year. Each hub will be equipped with up to 100 charging points, each with a maximum capacity of 150 kW. All stations will rely on renewable energy, stored in battery energy storage systems developed and produced by VinFast, Vingroup’s EV brand.

“With 99 hubs in place, VinFast customers can travel long distances with full confidence, even during peak periods,” said Pham Thanh Thuy, Chairwoman and CEO of V-Green.

V-Green has big plans—by 2028, the company aims to deploy 500,000 charging ports in Vietnam, and to expand into international markets.

Sources: The Saigon Times, Vietnam Investment Review

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Scalvy raises $13.9 million in Series A funding for its modular power delivery platform

Distributed power specialist Scalvy has raised $13.9 million in an oversubscribed Series A funding round. This funding round brings Scalvy’s total capital raised to $17 million.

The company will use the new funds to accelerate certification, field testing and deployment of its Power Neuron power delivery platform, and to support the rapid expansion of its team to meet rising demand.

Scalvy’s Power Neuron power delivery platform distributes power conversion and control across compact, software-coordinated modules with built-in energy storage. It’s designed to be deployed directly at energy load points, enabling systems to scale to megawatt-level power with greater efficiency, smaller size, higher reliability and grid interactivity.

Mohamed Badawy, co-founder and CEO of Scalvy, says the electric mobility industry currently faces a dilemma. “If you want higher power, you are forced to sacrifice space, increase costs, and lose usable capacity. Scalvy is the only company enabling systems to scale to massive power levels without those traditional penalties, and crucially, without requiring customers to drastically re-architect their systems.”

Initially, Scalvy is focusing on three rapidly evolving markets: data centers, energy storage and electric mobility.

Scalvy has completed technical validation of its technology under real-world operating conditions with “several blue-chip customers across mobility and energy infrastructure.” The company is now expanding its engineering, product and operations teams in preparation for product certification and near-term field deployments.

Source: Scalvy

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Harbinger partners with Frazer to electrify ambulances and mobile healthcare units

Commercial EV OEM Harbinger is on a roll. Just in the last few months, the company has launched a new line of battery storage products, acquired autonomous driving company Phantom AI, and unveiled a new medium-duty truck. CEO John Harris told Charged that his five-year-old company’s success is based on specialization and vertical integration (read our January in-depth interview with Harris).

For its next act, Harbinger has partnered with mobile healthcare solution provider Frazer to electrify ambulances and mobile healthcare vehicles using Harbinger’s plug-in hybrid vehicle chassis and battery technology.

Texas-based Frazer designs and builds emergency response and mobile healthcare vehicles for EMS agencies, fire departments, hospitals and specialty care programs. As part of the new partnership, the company has made a strategic investment in Harbinger.

“At Frazer, we believe the future of healthcare should deliver exceptional medical care directly to the patient, rather than simply transport the patient to care,” said CEO Laura Griffin. “This partnership with Harbinger demonstrates Frazer’s move beyond the traditional ambulance model and into a mobile healthcare solution provider that supports new care delivery models. Hybrid-electric vehicles offer a practical first step toward electrification in emergency and medical environments, while preserving full operational readiness and clinical reliability.”

Frazer and Harbinger plan to build several new mobile healthcare products:

• an emergency medical response vehicle built on Harbinger’s hybrid chassis to support mission-critical reliability, clinical grade power redundancy, and drastically reduced operational complexity;
• a mobile healthcare platform built on Harbinger’s hybrid chassis to support care delivery outside traditional fixed location facilities such as community care facilities and hospital system extensions;
• auxiliary power systems based on Harbinger’s battery technology, providing redundant power for field medical care in both hybrid and ICE vehicles.

Harbinger’s hybrid offering pairs its electric chassis with a gas-powered range extender that recharges the battery when needed. This architecture enables reduced emissions during idling, stable and redundant power delivery for onboard medical equipment, and simplified energy management.

Both Harbinger and Frazer are committed to US manufacturing. Harbinger designs and manufactures its electric and hybrid chassis in-house at its California headquarters, including all major vehicle systems such as the powertrain, battery system, steering, brakes and more. Frazer produces its products in Houston.

“Through this partnership, Harbinger is entering the mobile healthcare and emergency medical response market for the first time,” said John Harris. “Our proprietary platform was designed from the ground up as a modular foundation to support a wide range of commercial and specialty applications. In mobile healthcare, redundancy, uptime and operational flexibility are non-negotiable, and our platform is built to deliver the reliability this market requires.”

Source: Harbinger

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