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.
KAUST and McLaren Racing have signed a five-year R&D agreement focused on extreme performance technology. The partnership will focus on computational fluid dynamics (CFD), machine learning, fuels and lubricants, advanced mathematics and sensors and electronics. The collaboration aims to advance research and offer talent development for KAUST graduate students through research and internships. Why it matters: This partnership highlights KAUST's growing role in international collaborations to advance research and development in key areas like AI and sustainable mobility solutions.
KAUST researchers found Y-series nonfullerene acceptors enhance the outdoor stability of organic solar cells, enabling energy-efficient windows. They also used satellite data to show managed vegetation can mitigate rising temperatures across Saudi Arabia's agricultural regions. Additionally, they developed DeepKriging, a deep neural network, to solve complex spatiotemporal datasets and tested it on air pollution. Why it matters: This research addresses critical challenges in renewable energy, climate change, and AI data privacy relevant to Saudi Arabia and the broader region.