KAUST Ph.D. student Amal Mohammed Alamri was a finalist in the July 2018 IEEE nanoArt Competition, part of the 18th IEEE International Conference on Nanotechnology in Cork, Ireland. Her work, displayed at University College Cork and Crawford/CIT Gallery, involved stacking n-type MoS2 single crystal with p-type perovskite CH3NH3PbBr3 single crystal. Alamri's IEEE Nano paper entitled "Photonic Single Crystal Heterostructures based on Perovskites/Molybdenum disulfide" was also presented at the conference. Why it matters: This highlights KAUST's contribution to nanotechnology research and its students' participation in international scientific events.
KAUST Ph.D. student José Efraín Pérez won the Magnetism as Art Showcase People’s Choice Award at the 62nd Annual Conference on Magnetism and Magnetic Materials (MMM) 2017 for his artwork "Magnetic Nanobeacon." The artwork represents magnetic nanowires embedded in a nanoporous template. Pérez's research focuses on biomedical applications of nanostructures, using nanowires as a scaffold for stem cell differentiation. Why it matters: This award highlights the innovative research at KAUST in the area of magnetic nanostructures and their potential applications in biomedicine.
KAUST PhD students David Castro and David Conchouso won the 2014 Art in Science photography competition sponsored by NIST and Lab on a Chip. The winning photograph depicted work from KAUST's Electromechanical Microsystems & Polymer Integration Research Lab (EMPIRe), specifically real-time agglutination within a microdroplet. The photo will be featured on a future cover of the journal Lab on a Chip. Why it matters: This award highlights the visually compelling nature of microfluidics research and showcases the interdisciplinary work at KAUST.
KAUST held its second annual "Science as Art" competition, sponsored by the KAUST student chapter of the Materials Research Society (MRS). Over 25 KAUST students and postdoctoral fellows participated, showcasing artistic research images from their lab work. The competition aimed to bridge the gap between the scientific community and the general public by presenting science from an artistic point of view. Why it matters: Such initiatives at KAUST can foster interdisciplinary thinking and enhance public engagement with science and technology in Saudi Arabia.
KAUST's nanoscience and nanotechnology program was ranked 18th globally in the 2022 US News & World Report's Best Global Universities list. The ranking reflects KAUST's strong performance in basic and applied research at the micro and nano levels, spanning disciplines from chemistry to medical science. KAUST scored 81.7 out of 100, with high scores in citations, normalized citation impact, and international collaboration. Why it matters: This ranking highlights the growing prominence of Middle Eastern universities in advanced scientific fields and KAUST's contributions to global nanoscience research.
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 Ph.D. students Abdullah S. Almansouri and Hanan Mohammed won awards at the 21st International Conference on Magnetism (ICM 2018). Almansouri won the Best Poster Award for his work on magnetic tracking of cardiac catheters using flexible magnetic tunnel junction sensors. Mohammed won the People's Choice Award in the Magnetism as Art Showcase for her artwork entitled 'Autumn in my Nanoworld.' Why it matters: Recognition at ICM highlights KAUST's research contributions in magnetism and microsystems, particularly in developing innovative medical devices.
KAUST and KACST researchers have developed a nanoPE nanoplastic that improves LED streetlight energy efficiency by enhancing thermal radiation emission and reducing LED temperature. The nanoPE coating allows infrared light to pass through while reflecting visible light, optimizing illumination. Simulations suggest that adopting this technology in the US could reduce carbon dioxide emissions by over one million metric tons. Why it matters: This innovation offers a sustainable lighting solution with significant potential for reducing energy consumption and carbon emissions in Saudi Arabia and globally.