10:18 pm - February 15, 2026
INTRATOMICS and MAGMA sign MoU to convert industrial waste into high-value graphene materials, advancing the UAE’s circular economy and sustainable development goals.
A promising partnership between INTRATOMICS Advanced Material Technologies and MAGMA (RWM) represents an important step forward in pushing sustainability and circular economy initiatives in the UAE. Essentially, they’re working on turning industrial waste into graphene and related materials, known as GRMs. This recent Memorandum of Understanding (MoU), signed just a little while ago, sets out to develop scalable processes for recovering, processing, and upcycling various industrial byproducts like coke, fly ash, biosolids, and metallic residues into high-value materials. These, in turn, have numerous applications across different industries.
INTRATOMICS, which spun off from Khalifa University Enterprises Company (KUEC) and the Research & Innovation Centre for Graphene and 2D Materials (RIC2D), is teaming up with MAGMA, a UAE-based company that specializes in waste valorization and sustainable material recovery. The goal? To boost both environmental sustainability and industrial performance. The idea is to promote a circular economy where waste, once seen as simply a burden, is transformed into valuable raw materials for sectors like manufacturing, construction, petrochemicals, infrastructure, and environmental management. Plus, by producing graphene-based materials locally, this collaboration helps strengthen the UAE’s industrial independence and aligns with national strategies such as the Net Zero 2050 initiative.
Now, graphene itself is a marvel, a material celebrated for its incredible strength, light weight, excellent conductivity, and chemical stability. These properties make it highly attractive for improving coatings, composites, filtration, lubricants, and structural components. Focusing on converting industrial waste into graphene actually positions the UAE as a regional leader in advanced material science. Not only does this reduce reliance on imports, but it also paves the way for new value chains and industrial innovation within the country.
Fahed Mohamed Rashed Alabsi, CEO of INTRATOMICS, emphasized how this partnership could change the game. He pointed out that moving away from viewing waste as just a problem, toward seeing it as a resource, could be pretty transformative. This perspective highlights that waste valorization isn’t just about cutting environmental impacts by decreasing landfill use and emissions. It also opens the door to economic opportunities, especially in sectors that need materials with better durability, lighter weight, and higher energy efficiency.
Across the globe, similar efforts are gaining momentum. For example, in the US, companies such as Astera and Carbon Conversion Group are working on turning industrial plastic waste into synthetic graphene, helping to cut down landfill buildup and lower carbon footprints. Meanwhile, in Japan, firms like Gerdau Graphene are developing graphene-enhanced plastics, tackling the tricky technical issues around consistency and integration. It’s clear that worldwide, the landscape for graphene applications is rapidly evolving.
As awareness grows about how versatile graphene can be, this partnership echoes broader industrial trends focused on ESG, meaning environmental, social, and governance, compliance and sustainable practices. The UAE’s strategic decision to leverage cutting-edge research, especially from Khalifa University, along with local industrial expertise, exemplifies how scientific innovation can align with government and economic policies. This collaboration is poised to speed up the transition to a fully circular economy, turning waste into resources, leading to higher industrial efficiency, lower carbon emissions, and even greater economic diversification.
And it’s worth noting that these efforts aren’t happening in isolation. Similar developments are underway elsewhere, such as the creation of graphene-enhanced lithium-ion batteries by companies like Green Battery Minerals and Graphene Star in the UK. These advances show how the range of graphene applications extends beyond traditional industries, reaching into next-generation tech like clean energy and electric vehicles.
In summary, the alliance between INTRATOMICS and MAGMA showcases a forward-looking vision, one where sustainability and industrial development go hand in hand, driven by scientific progress. As this initiative grows, it clearly demonstrates how the UAE is positioning itself at the forefront of climate tech and advanced materials. It’s a clear sign of the country’s ambition to lead in sustainable industrial innovation across the region.
Source: Noah Wire Services
- https://thetechnologyexpress.com/intratomics-and-magma-partner-to-transform-waste-into-graphene/ – Please view link – unable to able to access data
- https://www.ku.ac.ae/intratomics-and-magma-sign-mou-to-transform-industrial-waste-into-graphene – INTRATOMICS Advanced Material Technologies, a commercial spin-off of Khalifa University Enterprises Company (KUEC), has signed a Memorandum of Understanding (MoU) with MAGMA (RWM), a UAE-based company specialising in waste valorisation and sustainable material recovery. The collaboration aims to develop scalable pathways to recover, process, and upcycle industrial byproducts into advanced materials, enhancing both sustainability and performance across multiple industries. This strategic step toward building a circular economy involves converting industrial waste into graphene and graphene-related materials (GRMs), unlocking new value chains for the UAE’s manufacturing, construction, petrochemical, infrastructure, and environmental sectors. ([ku.ac.ae](https://www.ku.ac.ae/intratomics-and-magma-sign-mou-to-transform-industrial-waste-into-graphene?utm_source=openai))
- https://www.onearabia.me/business/intratomics-magma-sign-mou-industrial-waste-graphene-011-130781.html – INTRATOMICS Advanced Material Technologies, a commercial entity from Khalifa University Enterprises Company (KUEC), has entered into a Memorandum of Understanding (MoU) with MAGMA (RWM), a UAE-based company focusing on waste valorisation and sustainable material recovery. The agreement was signed by Fahed Mohamed Rashed Alabsi, CEO of INTRATOMICS, and Mark Anthony Woods, CEO of MAGMA. The collaboration aims to convert industrial byproducts into advanced materials, enhancing sustainability across various sectors. This strategic move supports the creation of a circular economy where waste is transformed into graphene and related materials, benefiting the UAE’s manufacturing, construction, petrochemical, infrastructure, and environmental industries. Fahad Mohamed Rashed Alabsi stated that this partnership changes the perception of waste from a burden to a valuable resource. ([onearabia.me](https://www.onearabia.me/business/intratomics-magma-sign-mou-industrial-waste-graphene-011-130781.html?utm_source=openai))
- https://abudhabimagazine.ae/intratomics-magma-sign-mou-to-transform-industrial-waste-into-graphene/ – INTRATOMICS Advanced Material Technologies, the commercial spin-off of the Research & Innovation Centre for Graphene and 2D Materials (RIC2D) under Khalifa University Enterprises Company (KUEC), has signed a Memorandum of Understanding (MoU) with MAGMA (RWM), a UAE-based company specialising in waste valorisation and sustainable material recovery. The MoU was signed by Fahed Mohamed Rashed Alabsi, Director, Commercialisation and Special Projects, RIC2D and Chief Executive Officer, INTRATOMICS, and Mark Anthony Woods, Chief Executive Officer, Magma. The collaboration aims to develop scalable pathways to recover, process, and upcycle industrial byproducts into advanced materials, enhancing both sustainability and performance across multiple industries. It marks a strategic step toward building a circular economy where industrial waste is converted into graphene and graphene-related materials (GRMs), unlocking new value chains for the UAE’s manufacturing, construction, petrochemical, infrastructure, and environmental sectors. ([abudhabimagazine.ae](https://abudhabimagazine.ae/intratomics-magma-sign-mou-to-transform-industrial-waste-into-graphene/?utm_source=openai))
- https://www.graphene-info.com/new-partnership-aims-convert-industrial-plastic-scrap-graphene – Global Green USA, the American affiliate of nongovernmental organization Green Cross International, is formally endorsing and entering into a strategic partnership with Astera and the Carbon Conversion Group Inc. (CCG) as they look to convert industrial plastic scrap into high-grade graphene. The firms say the partnership seeks to drastically reduce the landfill burden and carbon emissions. California-based Astera and CCG, a plastic recycling technology company that specializes in transforming industrial and commercial plastic scrap into synthetic graphene, graphite, hydrogen and other commodities based in Murfreesboro, Tennessee, will use technology that supports local industries, reduces reliance on imported graphene and aligns with the U.S.’ commitment to sustainability and reduced global supply chain vulnerabilities. ([graphene-info.com](https://www.graphene-info.com/new-partnership-aims-convert-industrial-plastic-scrap-graphene?utm_source=openai))
- https://www.sumitomocorp.com/en/easia/news/topics/2023/group/20230407 – Sumitomo Corporation has signed an exclusive distributor agreement with Gerdau Graphene to deal with its graphene-added plastic materials (polyethylene/polypropylene resins) in Japan. The company will promote marketing and sales in Japan for graphene-enhanced resins produced by Gerdau Graphene. Graphene is an ultrathin high-performance material known for its super-strength, hardness, thinness, and electrical conductivity. Due to these outstanding properties, graphene is expected to be used for many different purposes. However, relevant commercialization efforts are being hampered by a number of technical challenges, particularly related to grade (thinness) control during the manufacturing process and fusing the substance into the target resin and other materials. In response to this issue, Gerdau Graphene has developed proprietary grade control and dispersion techniques to apply graphene to general-purpose plastic materials and related production processes, thus becoming an industry pioneer in the world. ([sumitomocorp.com](https://www.sumitomocorp.com/en/easia/news/topics/2023/group/20230407?utm_source=openai))
- https://greenbatteryminerals.com/green-battery-minerals-creates-lithium-ion-battery-using-esg-friendly-graphene-technology-and-enters-into-memorandum-of-understanding-with-graphene-star-a-uk-graphene-producer/ – Green Battery Minerals Inc. has executed a non-binding arm’s length Memorandum of Understanding dated January 18, 2023, with a United Kingdom-based manufacturing company, Graphene Star Trading Ltd. The purpose of this MoU is to work towards a definitive agreement, subject to the prior written approval of the Exchange. Graphene Star produces high-quality graphene products and has successfully taken graphite from Green Battery Minerals’ 100% owned Berkwood graphite project and created graphene with it. This graphene was then used to create lithium-ion batteries (LIBs) successfully. The company is very pleased to state that Graphene Star’s unique patented process has created “ESG friendly” LIBs. ([greenbatteryminerals.com](https://greenbatteryminerals.com/green-battery-minerals-creates-lithium-ion-battery-using-esg-friendly-graphene-technology-and-enters-into-memorandum-of-understanding-with-graphene-star-a-uk-graphene-producer/?utm_source=openai))
Noah Fact Check Pro
The draft above was created using the information available at the time the story first
emerged. We’ve since applied our fact-checking process to the final narrative, based on the criteria listed
below. The results are intended to help you assess the credibility of the piece and highlight any areas that may
warrant further investigation.
Freshness check
Score:
10
Notes:
✅ The narrative is fresh, with the earliest known publication date being November 13, 2025. ([ku.ac.ae](https://www.ku.ac.ae/intratomics-and-magma-sign-mou-to-transform-industrial-waste-into-graphene?utm_source=openai))
Quotes check
Score:
10
Notes:
✅ No direct quotes were identified in the provided text, indicating potential originality or exclusivity.
Source reliability
Score:
10
Notes:
✅ The narrative originates from Khalifa University, a reputable institution, enhancing its credibility.
Plausability check
Score:
10
Notes:
✅ The claims are plausible and align with known initiatives in the UAE’s sustainability and circular economy efforts. ([ku.ac.ae](https://www.ku.ac.ae/intratomics-and-magma-sign-mou-to-transform-industrial-waste-into-graphene?utm_source=openai))
Overall assessment
Verdict (FAIL, OPEN, PASS): PASS
Confidence (LOW, MEDIUM, HIGH): HIGH
Summary:
✅ The narrative is fresh, originating from a reputable source, and presents plausible claims without identified issues.
