KAUST ·
A conference at KAUST covered topics related to hydrophobic interfaces. The event brought together researchers and experts in the field. King Abdullah University of Science and Technology hosted the conference. Why it matters: Events like this foster collaboration and knowledge sharing in materials science and engineering.
KAUST ·
KAUST's Water Desalination and Reuse Research Center (WDRC) is dedicated to reducing the energy footprint of desalination, with Saudi Arabia being the largest producer of desalinated water globally. Biofouling, caused by organisms like the bay barnacle, increases the energy required for desalination and affects various sectors, including medical devices and marine vessels. Researchers at WDRC, including Professor Matthew McCabe and Director Johannes Vrouwenvelder, are exploring novel desalination technologies and anti-fouling agents to combat biofouling. Why it matters: Addressing biofouling is crucial for reducing the economic and ecological costs of desalination in water-scarce regions like Saudi Arabia and improving efficiency across multiple industries.
KAUST ·
KAUST marine biologist Maggie Johnson is studying how to accurately measure environmental conditions to optimize coral restoration, focusing on temperature and light. She highlights the variability in precision and accuracy of commercially available instruments for measuring these parameters. Johnson notes that some instruments fail in the Red Sea's warm temperatures and high salinity, providing incorrect data. Why it matters: Accurate environmental monitoring is crucial for the success of coral reef restoration efforts in the face of climate change, especially in extreme environments like the Red Sea.
KAUST ·
KAUST researchers are using 3D printing with a novel calcium carbonate ink to create coral support structures that accelerate coral restoration. Their approach, named 3D CoraPrint, involves printing coral microfragments onto the structure, offering a head start for reef recovery. Two methods were developed: printing a mold for reproduction and direct printing for customization. Why it matters: This eco-friendly technique provides a potentially scalable solution to combat coral reef degradation, leveraging advanced materials and fabrication for ecological conservation in the region and beyond.
KAUST ·
KAUST researchers have achieved a breakthrough by passing the damp-heat test for perovskite solar cells (PSCs), a rigorous assessment of their ability to withstand prolonged exposure to high humidity and temperatures. The team engineered 2D-perovskite passivation layers that block moisture and enhance power conversion efficiencies. The successful test, which requires maintaining 95% of initial performance after 1,000 hours at 85% humidity and 85 degrees Celsius, marks a significant step toward commercialization. Why it matters: This advancement addresses a critical weakness of PSCs and brings the technology closer to competing with silicon solar cells in terms of stability and longevity, crucial for widespread adoption of renewable energy.