Sergey Kozlov, a research scientist at KAUST's Catalysis Center (KCC), is leaving to take up a tenure-track position as an assistant professor at the National University of Singapore (NUS). During his time at KAUST, Kozlov focused on simulating the chemical properties of catalysts using computational chemistry methods and the Shaheen II supercomputer. His research focused on applications in energy and CO2 utilization technologies. Why it matters: Kozlov's move highlights KAUST's role in developing research talent and contributing to advancements in computational chemistry and catalysis within the region.
Abhay Dokania, a Ph.D. student at KAUST, is researching the conversion of CO2 to useful chemicals under the supervision of Professor Jorge Gascon at the KAUST Catalysis Center. His work focuses on developing multi-functional heterogeneous catalysts. Dokania's background includes degrees from Birla Institute and TU Delft, as well as research experience in the Netherlands. Why it matters: This research contributes to sustainable chemical engineering and CO2 reduction, aligning with Saudi Arabia's broader environmental goals.
KAUST postdoctoral fellow Anastasiya Bavykina works in the Catalysis Center, focusing on converting carbon dioxide into methanol using a novel catalyst developed at KAUST, achieving around 80% selectivity. She emphasizes KAUST's state-of-the-art facilities as crucial for her research productivity. Bavykina aims to address real-world challenges by reducing greenhouse gas emissions and producing a valuable chemical. Why it matters: This research contributes to sustainable chemical production and aligns with global efforts to reduce carbon emissions, showcasing KAUST's role in addressing environmental challenges.
KAUST M.S./Ph.D. student Mohammad Alabdullah is researching crude oil conversion and catalyst formulation in the KAUST Catalysis Center under Professor Jorge Gascon. Alabdullah, a KFUPM graduate who previously worked at Saudi Aramco's R&D center, aims to develop innovative technology for industrial applications. He appreciates KAUST's state-of-the-art facilities and focus on real-world applications and plans to return to Saudi Aramco after his studies. Why it matters: This highlights KAUST's role in developing Saudi talent for the petrochemical industry and fostering collaboration between academia and industry.
KAUST postdoctoral fellow Adrian Galilea is working at the Catalysis Center on sustainable production of chemicals from carbon dioxide. The research involves synthesizing a catalyst for the hydrogenation of CO2 to olefins and aromatics. The new material reportedly converts CO2 to these chemicals with high selectivity and productivity. Why it matters: Developing sustainable chemical production methods could reduce reliance on fossil fuels and address climate change.
KAUST student Nawaf Alghamdi won a best poster prize at the XXIII International Conference on Chemical Reactors (CHEMREACTOR-23) in Ghent, Belgium. Alghamdi's poster focused on his research utilizing the stagnation-flow reactor concept to reduce catalytic problems to one dimension. His work is part of his research in the Clean Combustion Research Center, focusing on understanding the kinetics of catalytic processes. Why it matters: This award recognizes promising research at KAUST and highlights the university's contributions to advancements in chemical engineering and catalysis, with potential applications in industrial processes.
KAUST student Nawaf Alghamdi received a grant from the King Abdulaziz City for Science and Technology (KACST) for his work on "Upgrading Low-Grade Feedstocks Using Catalytic Pyrolysis". The grant will support Alghamdi's Ph.D. research at KAUST for two years under the supervision of Professor Mani Sarathy. KACST's GPURC program aims to develop scientific skills among graduate students and boost Saudi Arabia's position in science and technology. Why it matters: This grant exemplifies Saudi Arabia's strategic investment in cultivating local talent in STEM fields and fostering research collaboration between KAUST and national institutions.
KAUST researchers presented their work on stabilizing nanoparticle catalysts at the 252nd American Chemical Society Meeting & Exposition. The team devised a "molecular Scotch tape" using a silica gel support coated with a single molecule layer of soft material containing sulfur. This approach allows nanoparticles to stick to one side while leaving the other side free for catalysis, preventing aggregation without killing the catalyst. Why it matters: This innovation in catalyst stabilization could lead to more efficient and sustainable chemical processes, impacting various industries.
Wiebke Wackerow, a Ph.D. student in Chemical Science, came to KAUST from Germany in 2013 for an internship and stayed for her doctoral studies under Distinguished Professor Jean-Marie Basset in the Catalysis Center. Her research focuses on hydrocarbon activation via catalysis, designing single-site catalysts to investigate reaction mechanisms. Wackerow values the opportunities KAUST provides, including conference participation, technical training, and personal growth. Why it matters: This highlights KAUST's ability to attract and retain international talent in STEM fields, fostering advanced research in catalysis and contributing to industrial applications.