Intratomics and MAGMA have signed a MoU to convert industrial waste streams into valuable graphene materials, advancing UAE’s vision for sustainable industry and net zero targets through circular economy practices.
INTRATOMICS Advanced Material Technologies, a commercial spin-off from Khalifa University’s Research & Innovation Centre for Graphene and 2D Materials (RIC2D), has forged a significant partnership through a Memorandum of Understanding (MoU) with the UAE-based waste valorisation firm MAGMA (RWM). This agreement reflects a strategic commitment to transform industrial waste streams into valuable graphene and graphene-related materials (GRMs), marking a notable advance in the UAE’s pursuit of sustainable industrial innovation and circular economy initiatives.
The collaboration, signed by Fahed Mohamed Rashed Alabsi, CEO of INTRATOMICS, and Mark Anthony Woods, CEO of MAGMA, aims to develop scalable processes to recover, process, and upcycle diverse industrial byproducts such as coke, fly ash, biosolids, and metallic residues. By converting these waste materials into graphene and GRMs, the partnership intends to support a broad spectrum of sectors, including manufacturing, construction, petrochemicals, infrastructure, and environmental technologies.
This initiative represents a paradigm shift in how industrial waste is perceived and utilised. Fahed Alabsi stated that the collaboration seeks to redefine waste “not as a burden, but as a source of value,” enabling cleaner and more efficient industries. Similarly, Mark Anthony Woods emphasised the synergy of combining MAGMA’s expertise in sustainable material recovery with INTRATOMICS’ advanced material science capabilities, envisioning a circular model where sustainability and profitability coexist.
The endeavour aligns directly with the UAE’s Net Zero 2050 ambitions, embodying scientific innovation as a core driver for industrial decarbonisation and circular economy development. By locally producing high-value graphene materials that can be integrated into coatings, composites, filtration systems, lubricants, and structural materials, the partnership envisions enhancing the UAE’s industrial self-reliance while lowering carbon intensity.
Khalifa University Enterprises Company (KUEC), the business and investment arm of Khalifa University, which oversees INTRATOMICS, sees this collaboration as a vital bridge between pioneering research and national industrial priorities. Amal Al Jabri, CEO of KUEC, highlighted the university’s role in harnessing science as a catalyst for circular economy transformation and sustainable materials leadership on a global scale.
This MoU builds upon Khalifa University’s broader sustainability ambitions, exemplified by its five-year Sustainability Plan that integrates environmentally responsible practices across its operations and research. Recent university initiatives include phasing out single-use plastics and fostering collaborations like those with British climate tech firm Levidian, which aims to integrate graphene applications with carbon capture technologies. Khalifa University’s Research & Innovation Centre for Graphene and 2D Materials continues to solidify its position as a hub for graphene innovation, having showcased pioneering work on graphene-enhanced concrete in wastewater treatment at the I2DMSUMMIT2024, reinforcing the material’s potential in environmental remediation.
The INTRATOMICS-MAGMA partnership exemplifies how cutting-edge graphene research can invigorate sustainable industrial growth and create new economic value from previously untapped waste resources. By advancing scalable, commercial applications of GRMs derived from industrial byproducts, this collaboration is poised to contribute meaningfully to the UAE’s industrial decarbonisation trajectory and its strategic goals for sustainable development.
- https://abudhabimagazine.ae/intratomics-magma-sign-mou-to-transform-industrial-waste-into-graphene/ – Please view link – unable to able to access data
- https://abudhabimagazine.ae/intratomics-magma-sign-mou-to-transform-industrial-waste-into-graphene/ – INTRATOMICS Advanced Material Technologies, a commercial spin-off of Khalifa University’s Research & Innovation Centre for Graphene and 2D Materials (RIC2D), 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 sustainability and performance across multiple industries. This partnership 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. The initiative also demonstrates how scientific innovation can drive circularity by turning waste liabilities into resource assets, while lowering carbon intensity and fostering sustainable industrial growth aligned with UAE Net Zero 2050 ambitions. ([abudhabimagazine.ae](https://abudhabimagazine.ae/intratomics-magma-sign-mou-to-transform-industrial-waste-into-graphene/?utm_source=openai))
- https://www.ku.ac.ae/sustainability/assets/attachments/KU_Sustainability_Plan.pdf – Khalifa University has developed its first five-year Sustainability Plan, aiming to integrate sustainable practices across its operations and research initiatives. The plan includes phasing out all single-use plastic items, including plastic water bottles and cutlery, and launching an environmental awareness survey. These efforts reflect the university’s commitment to environmental stewardship and its role in advancing sustainable development within the UAE. ([ku.ac.ae](https://www.ku.ac.ae/sustainability/assets/attachments/KU_Sustainability_Plan.pdf?utm_source=openai))
- https://www.ku.ac.ae/sustainability/assets/attachments/Sustainability_Report_2024.pdf – Khalifa University’s 2024 Sustainability Report highlights key achievements in infrastructure and technology, including a partnership between the Research & Innovation Center for Graphene and 2D Materials (RIC2D) and Levidian, a British climate tech firm. This collaboration aims to advance the UAE’s decarbonisation efforts by exploring carbon capture from gas flaring and future applications for graphene. The report also details the establishment of a sustainability taskforce and the phasing out of single-use plastics across the university. ([ku.ac.ae](https://ku.ac.ae/sustainability/assets/attachments/Sustainability_Report_2024.pdf?utm_source=openai))
- https://www.i2dmsummit.com/2024/FILES/I2DMSUMMIT2024_Program.pdf – The I2DMSUMMIT2024, held in Abu Dhabi from November 25-28, 2024, featured a program that included presentations on graphene-enhanced concrete for wastewater treatment. Researchers from Khalifa University’s RIC2D presented their findings on the removal of heavy metal ions from wastewater using graphene-coated aggregates in pervious concrete mixes. The study demonstrated the potential of graphene-engineered pervious concrete in industrial wastewater treatment applications. ([i2dmsummit.com](https://www.i2dmsummit.com/2024/FILES/I2DMSUMMIT2024_Program.pdf?utm_source=openai))
- https://www.i2dmsummit.com/2024/FILES/I2DM2024_Abstractsbook.pdf – The I2DMSUMMIT2024 Abstracts Book provides an overview of the summit’s scientific program, including contributions from Khalifa University’s RIC2D. The book highlights the centre’s role in advancing research and innovation in graphene and 2D materials, showcasing its collaborations with various scientific institutions, companies, and government agencies. The summit served as an international platform for communication between science and business, fostering technical cooperation in the advanced materials sector. ([i2dmsummit.com](https://www.i2dmsummit.com/2024/FILES/I2DM2024_Abstractsbook.pdf?utm_source=openai))
- https://abudhabimagazine.ae/uae-growth-momentum-continues-with-digital-economy-at-forefront-ernst-young/ – Anthony O’Sullivan, Managing Partner of Ernst & Young (EY) in the UAE, affirmed that Dubai is one of the most attractive cities globally for investment and economic opportunities. He highlighted the city’s support for company growth and expansion, noting that the UAE is among the fastest-growing economies in the region. Emerging areas within the digital economy, such as digital assets, artificial intelligence, and data, are drawing increasing interest from global companies that view Dubai as an ideal base for expansion in these future-focused industries. ([abudhabimagazine.ae](https://abudhabimagazine.ae/uae-growth-momentum-continues-with-digital-economy-at-forefront-ernst-young/?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 was published on 13th November 2025, with the earliest known publication date matching this. It has not appeared elsewhere, indicating originality. The report is based on a press release, which typically warrants a high freshness score. No discrepancies in figures, dates, or quotes were found. No similar content has appeared more than 7 days earlier. The article includes updated data and does not recycle older material. No recycled content was identified. ([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:
The direct quotes from Fahed Mohamed Rashed Alabsi and Mark Anthony Woods appear to be original, with no identical matches found in earlier material. No variations in wording were noted. No online matches were found, suggesting potentially original or exclusive content.
Source reliability
Score:
9
Notes:
The narrative originates from Khalifa University, a reputable organisation. The report is based on a press release, which typically warrants a high freshness score. No unverifiable entities or fabricated information were identified.
Plausability check
Score:
10
Notes:
The claims about the collaboration between INTRATOMICS and MAGMA to transform industrial waste into graphene are plausible and align with known advancements in graphene research. The narrative is covered elsewhere, including on Khalifa University’s official website. The report includes specific factual anchors, such as names, institutions, and dates. The language and tone are consistent with the region and topic. No excessive or off-topic detail unrelated to the claim was noted. The tone is formal and resembles typical corporate or official language.
Overall assessment
Verdict (FAIL, OPEN, PASS): PASS
Confidence (LOW, MEDIUM, HIGH): HIGH
Summary:
The narrative is original, with no recycled content identified. The quotes appear to be original, and the source is reputable. The claims are plausible and supported by specific factual anchors. The language and tone are appropriate for the region and topic. No credibility risks were identified.
