KAUST Ph.D. student Abdulkhaleq Almansaf won 3M's 2017 Invent a New Future Challenge, representing Saudi Arabia among 14 global finalists. Almansaf presented an idea to use metal nanoclusters in solar energy, drawing on KAUST's example of resource utilization and diversity. As part of his win, Almansaf will receive mentorship from a 3M senior leader for six months. Why it matters: The recognition highlights KAUST's role in fostering innovation and its students' ability to contribute solutions on a global scale.
KAUST Ph.D. student Muhammad Akram Karimi won the Three Minute Thesis competition at the IEEE MTT International Microwave Symposium in Boston. Karimi's presentation, titled "Making Materials Smart Using Microwaves," detailed his research on low-cost in situ microwave sensors. His work, in collaboration with Saudi Aramco, focuses on detecting water fraction in oil using sensors printed directly on pipes. Why it matters: This award recognizes innovative research at KAUST and highlights the potential of microwave sensor technology for applications in the oil and water industries within the region.
KAUST researchers are using 3D printing with a novel calcium carbonate ink to create coral support structures that accelerate coral restoration. Their approach, named 3D CoraPrint, involves printing coral microfragments onto the structure, offering a head start for reef recovery. Two methods were developed: printing a mold for reproduction and direct printing for customization. Why it matters: This eco-friendly technique provides a potentially scalable solution to combat coral reef degradation, leveraging advanced materials and fabrication for ecological conservation in the region and beyond.
Three KAUST scientists—Hamed Albalawi, Hend Mohamed, and Walaa Khushaim—have been named MIT Technology Review Innovators Under 35 MENA. Albalawi developed a calcium carbonate ink for 3D-bioprinting coral restoration scaffolds, while Mohamed created catalysts for sustainable aviation fuel production. Khushaim developed multiplexed biosensors for early heart attack detection, integrated into portable diagnostic devices. Why it matters: This recognition highlights the growing innovation ecosystem at KAUST and the potential for Saudi Arabia to contribute significantly to global challenges in sustainability and healthcare.
Uwaidh Al-Harethi, executive VP at SABIC, spoke at KAUST's 2019 Winter Enrichment Program about the importance of innovation, noting that leading tech companies invest heavily to penetrate markets. He highlighted Samsung's patent filings and Amazon's innovation spending. Al-Harethi stated that SABIC makes three dollars for every one dollar spent on innovation, emphasizing its role in the chemical industry's success. Why it matters: The talk underscores the increasing focus on innovation and technology leadership within Saudi Arabia's key industries, particularly in leveraging AI for future technologies.
KAUST researchers are developing a streamlined COVID-19 diagnostic testing method using superparamagnetic nanoparticles (MNPs). The team, led by Assistant Professor Mo Li, aims to address reagent shortages and improve automation by creating an in-house extraction kit compatible with inactivated samples. Associate Professor Samir Hamdan identified a protocol for making silica-coated MNPs that survive inactivation reagents, enabling magnetic separation without centrifugation. Why it matters: This innovation could significantly increase testing capacity in Saudi Arabia and globally by reducing biosafety risks, reagent dependence, and manual processing.
KAUST and McLaren Racing have expanded their 5-year partnership to include collaborative research projects across McLaren's motorsport teams. The partnership will focus on simulation methodologies, optimized computing, and high-efficiency lubricants. KAUST students and researchers will work with McLaren at the McLaren Technology Centre to deliver joint projects. Why it matters: This collaboration provides KAUST students with real-world experience in an applied R&D environment, fostering innovation in areas like materials, lightweight structures, and circularity, with potential implications for the broader automotive and technology sectors in the region.
KAUST researchers have demonstrated that incorporating tetrahydrotriazinium into perovskite/silicon tandem solar cells enhances both performance and stability. The additive increases hydrogen bonds in the perovskite film's crystal structure, improving power conversion efficiency to 33.7% and phase stability during testing under intense conditions. The improved cells showed more stability after 1500 hours of testing, modeling harsh environments. Why it matters: This research offers a pathway to more durable and efficient solar cells suitable for deployment in harsh climates like the Arabian Peninsula, potentially boosting renewable energy adoption in the region.