Graphene Coating: introduction and market status

Graphene Manufacturing Group (GMG) has announced that its THERMAL-XR graphene coating solution is being applied to air conditioning units at two luxury residential towers under construction on Australia’s Gold Coast in Queensland. The project involves coating between 300 and 600 air conditioners at GMG’s spray booth facility in Brisbane.

The company said the coating is designed to improve energy efficiency, reduce corrosion and extend the operating life of HVAC equipment. "Great to see two of the largest towers in Australia using THERMAL-XR on their air conditioners to save energy for the apartment owners and tenants as well as limiting corrosion and extending the air conditioners' life,” GMG CEO Craig Nicol said in a statement.

Plaid Technologies has provided an update on its ongoing collaboration with Graphene Nano Works (“GNW”) to evaluate and advance a proprietary graphene-based coating technology designed to enhance the performance, survivability, and stealth characteristics of next-generation drone systems across aerial, marine, and ground domains.

As part of these ongoing efforts, the Company has recently delivered a batch of its high-quality graphene materials to Dr. Ian Flint for testing and validation in coating applications relevant to drone systems. This work is intended to further assess performance characteristics and support the continued advancement of discussions regarding a potential joint venture between the parties.

Sparc Technologies has announced a commercial milestone for its graphene-based ecosparc additive, with AkzoNobel planning to release an ecosparc‑enhanced version of its heavy-duty Interzone 954 protective coating in the Australian market starting May 2026.

AkzoNobel will initially offer the ecosparc-enhanced Interzone 954 on a made-to-order basis via its local manufacturing facility in Australia. The launch follows more than six years of ecosparc research and development by Sparc, alongside several years of collaboration with AkzoNobel that has included extensive laboratory testing and over 21 months of field trials on steel infrastructure in corrosive environments.

Royalton Coating Systems has announced a collaboration with PETRONAS Technology Ventures (PTVSB), the technology commercialization arm of Petroliam Nasional Berhad (PETRONAS), to validate a graphene-enhanced underwater epoxy coating aimed at improving corrosion protection in marine and industrial environments.

The partnership focuses on upgrading Royalton’s ROYALPOXY UW 410 underwater epoxy system with ProShield+™, a graphene-based additive developed by PETRONAS. The enhanced coating is currently undergoing evaluation for use in harsh conditions, including offshore platforms, pipelines, jetty structures, and marine vessels - applications where continuous exposure to seawater, humidity, and chemicals significantly accelerates material degradation.

First Graphene (FGR) has announced it has entered a binding Asset Purchase Agreement to acquire all manufacturing, intellectual property and development assets of Ionic Industries and its subsidiary Imagine Intelligent Materials. FGR views this acquisition as a strategic and cost-efficient opportunity to integrate advanced graphene coatings technologies developed over more than a decade of research and commercialization activity.

Following a comprehensive due diligence process, First Graphene identified strong technical and commercial alignment with the Companies' graphene formulation platforms, which have already demonstrated successful application across multiple real-world use cases. Under the Agreement, First Graphene will acquire production infrastructure, intellectual property, and established sales and distribution channels for a total consideration of AU$250,000 (around US$180,000) in cash and shares.

Sparc Technologies has entered into a Letter of Intent (LOI) with HydroGraph Clean Power to evaluate the use of HydroGraph’s Fractal Graphene in Sparc’s ecosparc® additives for protective coatings.

The LOI follows successful testing undertaken by Sparc incorporating HydroGraph’s Fractal Graphene within commercial water-based coating systems, which demonstrated positive performance benefits. Following execution of the LOI, Sparc will undertake ISO 12944 cyclic corrosion testing (4,200 hours) within commercially available solvent-based coatings. ISO 12944 is widely recognized as the premier international standard for assessing the corrosion protection of steel structures by protective coating systems. Subject to successful testing outcomes, the parties intend to negotiate a definitive commercial supply and collaboration agreement relating to Sparc’s ecosparc® additives.

Graphene Manufacturing Group (GMG) has announced that the US Environmental Protection Agency (EPA) has approved the import and sale of its THERMAL-XR graphene-based coating system in the US. The EPA issued a consent order under section 5(e) of the Toxic Substances Control Act, allowing GMG to export, distribute, sell, use and dispose of the chemical substance described in its pre-manufacture notice.

The product is used in GMG's THERMAL-XR ENHANCE coating system for applications including heating, ventilation, air conditioning and refrigeration, data centers, liquefied natural gas plants, automotive and electronics. GMG supplies the coating to its exclusive North American distributor, Nu-Calgon Wholesaler, which markets it as “Nu-Calgon CoolWorx powered by GMG Graphene.” The first shipment will now be sent to Nu-Calgon for distribution.

GIT Coatings has announced the launch of XGIT-FORCE, a graphene-based hard foul-release coating designed to enhance marine vessel efficiency while supporting sustainable operations. The innovative solution is reportedly biocide-free, zero-leaching, and engineered to reduce fuel consumption and emissions without releasing harmful chemicals or microplastics into the marine environment.

XGIT-FORCE aims to provide a measurable impact on vessel performance, offering fuel savings of up to 10% compared with traditional antifouling coatings. By maintaining smoother hull surfaces and reducing drag, ships can operate more efficiently, lowering operational costs while meeting growing environmental and regulatory demands in the shipping industry.

Researchers from China's Northeastern University, Shenyang Jusheng New Material Technology, Key Laboratory of Medical Image Computing, Shenyang Aerospace University and Australia's University of New South Wales have developed a polyurea-based nanocomposite spray sensing coating reinforced with covalently functionalized graphene nanoplatelets, offering a scalable solution for structural health monitoring in demanding environments.

Preparation and Main Properties of Graphene NanoPlatelet-functionalized Polyurea Coatings.

Structural health monitoring (SHM) in harsh and complex conditions remains challenging, as conventional sensors often lack conformability, mechanical durability, and long-term stability. In their recent study, the team outlines a new approach - a spray-applied polyurea nanocomposite sensing coating that integrates functionalized graphene nanoplatelets to combine robust mechanical performance with reliable, real-time damage and strain monitoring for infrastructure and automotive structures.

Sparc Technologies has announced the first commercial sale of its flagship graphene-based additive, ecosparc®, for use in solvent-based protective coatings.

The purchase order was made by an Asian coatings company following recently completed proof-of-concept testing conducted in their laboratories. The testing reportedly demonstrated improved performance utilizing the ecosparc® additive when compared to other graphene products and unmodified coating formulations. This milestone builds on recent momentum behind ecosparc® including R&D collaborations with Dulux and Aramco in addition to field trials which are being undertaken with BHP Mitsubishi Alliance, Santos and the Government of South Australia, among others.