KAUST Professor Ingo Pinnau has been named a 2020 Fellow of the North American Membrane Society (NAMS). Pinnau's research focuses on high-performance membranes for energy-intensive gas and liquid separations. He has published over 170 peer-reviewed papers and holds 46 granted U.S. patents. Why it matters: Recognition of KAUST faculty in this area highlights the university's contribution to advanced materials research, which is crucial for energy and sustainability initiatives in Saudi Arabia and globally.
KAUST hosted the Advanced Membranes and Porous Materials Center Research Conference from February 20-23. The conference focused on new materials for energy-intensive industrial separations. Experts, students, and researchers participated in presentations and poster sessions. Why it matters: Conferences like this promote collaboration and knowledge sharing in materials science, which is crucial for developing sustainable technologies in energy and other sectors within Saudi Arabia.
KAUST alumna Mona AlSaydlani (M.S. '13) is a founding class member who researched water desalination techniques under Professor Ingo Pinnau. She now works as a lead engineer in business communications at the Dow Middle East Innovation Center (MEIC) located on the KAUST campus, focusing on media, stakeholder relations, sustainability, and R&D. AlSaydlani also designs roadmaps for Dow Business activities and supports the Women's Innovation Network (WIN) at Dow Saudi Arabia. Why it matters: This highlights the career paths and contributions of KAUST alumni in industry, particularly in linking academic research with industrial applications and supporting women in STEM.
KAUST held a research conference on polymers, focusing on designing macromolecules for applications. The conference featured opening remarks from KCC director Jean-Marie Basset and presentations from professors including Nikos Hadjichristidis, Robert Waymouth, Natalie Stingelin, and Ingo Pinnau. Pinnau discussed the role of the KAUST Advanced Membranes & Porous Materials Center (AMPMC). Why it matters: The conference highlights KAUST's focus on advanced materials research and its contribution to scientific advancements in polymer science.
Iain McCulloch, director of the KAUST Solar Center, has been elected as a Fellow of the Royal Society. McCulloch's research focuses on high-performance organic semiconductor materials for applications such as transparent solar cells and sensors. The Royal Society, founded in 1660, is the UK's national science academy and a fellowship of eminent scientists. Why it matters: This recognition highlights KAUST's contributions to advanced materials research and its role in fostering scientific talent in the region.
KAUST Professor Iain McCulloch has received the 2020 Blaise Pascal Medal for Materials Science from the European Academy of Sciences (EurASc). McCulloch directs KAUST's Solar Center and also holds a professorship at Imperial College London. His research focuses on semiconducting small molecules and polymers for organic electronic devices, leading to advancements in organic solar cells. Why it matters: This award highlights KAUST's contributions to materials science and its focus on advancing solar energy technologies in the region.
Gilles Lubineau, KAUST's Discovery Associate Dean for Faculty in PSE and PI in the COHMAS lab, has been elected to the European Academy of Sciences and Arts. Lubineau's nomination recognizes his contributions to material engineering, specifically developing approaches for predicting and improving the integrity of materials and structures. He hopes this nomination will build bridges between European and Saudi academic communities. Why it matters: This recognition of a KAUST faculty member elevates the university's international standing and fosters potential collaborations in engineering and materials science.
KAUST's Functional Nanomaterials Laboratory (FuNL), led by Prof. Osman Bakr, focuses on synthesizing nanomaterials with novel optical, electronic, and magnetic properties for solar cells and other devices. The lab's research centers on controlling the size and composition of nanoparticles to optimize light absorption across different wavelengths. Unlike silicon-based solar cells, nanoparticle-based solar cells can be processed at low temperatures and potentially integrated with roll-to-roll printing. Why it matters: This research could lead to more efficient and versatile solar energy solutions, including printable photovoltaic thin films for buildings and flexible electronics.