Core42, a G42 company specializing in sovereign cloud and AI infrastructure, announced a strategic partnership with Solutions+, an AI-driven shared services company for the MIC Group, at Make it in the Emirates in Abu Dhabi. Core42 will serve as the foundational infrastructure provider, offering GPU compute and large language model access via its Compass API, while Solutions+ will be the primary implementation and data services partner, leveraging this infrastructure for its WEAVE AI platform. The agreement establishes a framework for delivering secure and scalable AI infrastructure across MIC Group companies and Abu Dhabi government entities, with broader scope for government and private sector clients. Why it matters: This partnership significantly advances the UAE's sovereign AI capabilities and accelerates enterprise AI adoption by combining robust infrastructure with specialized implementation expertise for critical national sectors.
MIT Professor Ahmed F. Ghoniem delivered a keynote at KAUST's Spring Enrichment Program discussing clean energy solutions for future cities. He emphasized a portfolio approach including electrochemical, solar thermochemical, and plasma technologies for renewable energy storage. Ghoniem highlighted the economic opportunities arising from clean energy technology deployment, R&D, and job creation. Why it matters: The focus on renewable energy and storage aligns with Saudi Arabia's Vision 2030 goals for sustainable urban development and diversification of the energy sector.
KAUST researchers found that inserting a magnesium fluoride layer in perovskite–silicon tandem solar cells can stall charge recombination and enhance performance. The magnesium fluoride interlayer effectively promoted electron extraction from the perovskite active layer and reduced charge recombination at the interface. The resulting tandem solar cell achieved a stabilized power conversion efficiency of 29.1%. Why it matters: Improving the efficiency of solar cells is critical for expanding renewable energy capacity in Saudi Arabia and worldwide.
KAUST scientists developed a new perovskite solar cell design using thin perovskite layers at the top and bottom of the interface. The new design achieves a power conversion efficiency of 25.6%, comparable to silicon solar cells, with only a 5% efficiency loss after 1000 hours of high heat exposure. The key innovation is the use of a specific ligand that interacts effectively with the 3D perovskites for passivation, maintaining purity in the thin layers. Why it matters: This advancement enhances the stability and efficiency of perovskite solar cells, making them a more viable and cost-effective alternative to silicon, especially for countries like Saudi Arabia aiming to increase renewable energy reliance.
KAUST startup Quantum Solutions manufactures quantum dots, semiconducting nanoparticles that emit light with controllable energy. These dots are being explored for applications including displays, photodetectors, and solar cells. Quantum dots can enhance the efficiency of silicon solar panels by absorbing infrared light. Why it matters: This highlights the potential of KAUST-incubated startups to contribute to advanced materials science and renewable energy technologies in the region.
A KAUST team designed an enhanced transfer system for Saudi Arabia's Ministry of Health (MOH) to address employee localization challenges. The system aims to improve staff distribution across the Kingdom and increase employee satisfaction by offering transparency and optimized HR allocation. The team, led by Omar Knio, Sultan Al-Barakati, and Ricardo Lima, developed dashboards for real-time application tracking and individual scoring. Why it matters: The collaboration between KAUST and MOH demonstrates the potential of AI and optimization to address critical human resource challenges in the public sector and improve healthcare services in Saudi Arabia.
KAUST researchers published a roadmap in Science for commercializing perovskite/silicon tandem solar cells, combining efficient light absorption with long-term stability. The roadmap addresses key challenges like real-world condition variability via geographical testing, accelerated stability testing, and high material costs. The researchers propose paradigms for both monolithic and mechanically stacked tandem production lines to identify cost-reduction opportunities. Why it matters: This work paves the way for affordable, accessible clean energy in Saudi Arabia and the world, with the market for perovskite/silicon tandems expected to exceed $10 billion within a decade.
KAUST and Partanna have launched a 12-month R&D partnership to enhance CO2 removal in concrete manufacturing. The collaboration will integrate Partanna’s formula with KAUST’s Direct Air Capture (DAC) technology. Partanna's patented concrete avoids Portland Cement and uses a binder made from natural and recycled materials, enabling CO2 absorption. Why it matters: This partnership highlights Saudi Arabia's commitment to sustainable construction and carbon-negative technologies, potentially revolutionizing building practices in the region and beyond.