KAUST is developing high-performance sensors for Saudi athletes, showcased at the Saudi Sports Sensors Workshop 2025. Olympian Rakan Alireza is collaborating with KAUST to utilize sensor technology in his training for the 2026 Winter Olympics. The workshop, co-chaired by KAUST Professor Dana Alsulaiman, aimed to foster collaboration between researchers and the sports community to advance sports science in Saudi Arabia. Why it matters: This initiative aligns with Saudi Vision 2030 by promoting sports innovation, localizing technology, and improving national health and athletic performance.
Rayan Tarek Alamoudi, a KAUST master's student in biological sciences, is researching under Professor Pierre Magistretti. Alamoudi believes his bioscience studies at KAUST will open opportunities aligned with Saudi Vision 2030. Interacting with diverse fellow students has enriched his educational experience at KAUST. Why it matters: This highlights KAUST's role in developing local talent in scientific research and aligns with Saudi Arabia's Vision 2030 goals for scientific advancement.
KAUST Ph.D. student Mohammad Shaqura was a finalist for the Best Student Paper Award at the IEEE International Conference. The award is from the Institute of Electrical and Electronics Engineers. The conference and award recognize outstanding contributions from student researchers in electrical and electronics engineering. Why it matters: This recognition highlights the growing talent pool and research capabilities in engineering fields at KAUST.
KAUST alumna Suzan Katamoura, who graduated in 2013 with a master's in computer networks, now works at King Abdullah City for Atomic and Renewable Energy. She is currently a researcher and director of the Nuclear Fuel Cycle Unit in the Atomic Energy Sector. Katamoura's research at KAUST focused on renewable energy data, specifically solar energy resource estimation. Why it matters: This highlights KAUST's role in training professionals who contribute to Saudi Arabia's strategic energy initiatives, including both renewable and nuclear energy sectors.
KAUST alumnus Albara Alauhali (M.S. '11) is the executive advisor and director of strategic projects at the National Identity Enhancement Program, which is aligned with Saudi Vision 2030. Alauhali holds a master's degree in computer science from KAUST and a bachelor's degree in computer science from King Fahd University of Petroleum and Minerals. He has held positions at Saudi Aramco's King Abdulaziz Center for World Culture and the Ministry of Economy and Planning. Why it matters: This highlights the career path of a KAUST graduate contributing to Saudi Arabia's strategic national programs.
KAUST alumnus Hussain Shibli (M.S. '13) is now the director general at the National Renewable Energy Data Center in King Abdullah City for Atomic and Renewable Energy (KACARE). Shibli obtained a bachelor's degree in electronics and communications engineering from King Abdulaziz University in 2010 before pursuing his master's at KAUST. He sees his position in the energy sector as an opportunity to lead renewable energy development in line with Saudi Vision 2030. Why it matters: This highlights KAUST's role in developing talent for key positions in Saudi Arabia's renewable energy sector, aligning with the Kingdom's strategic goals.
KAUST Associate Professor Derya Baran was named one of Forbes’ 20 Women Behind Middle Eastern Tech Brands for her work developing iyris SecondSky, a greenhouse roofing product. SecondSky uses nanoparticle additives to block heat while allowing light to pass through, reducing energy consumption by up to 40% and water use by 30%. The technology is already used in farms across 12 countries and is being considered for residential and commercial construction in Saudi Arabia. Why it matters: This recognition highlights the growing role of women in Middle Eastern tech and the potential for KAUST-developed technologies to address sustainability challenges in the region.
KAUST research scientist Dr. Ram Karan won two awards at the International Congress of Extremophiles 2018 for his work on extremozymes from Red Sea brine pools. His research focuses on understanding how life is possible under extreme conditions using culture-independent methods to evaluate the structure and function of polyextremophilic enzymes. Crystal structure analysis provided insights into how enzymes adapt to extreme conditions. Why it matters: This research provides insights into the possibilities of life in extreme conditions and has implications for astrobiology.