Bill Gates visited KAUST on June 24, 2014, to explore collaborative opportunities focused on reducing hunger, malnutrition, and water scarcity. He participated in a roundtable discussion on agriculture research in arid conditions and visited KAUST laboratories to observe innovative water-efficient food production systems. Gates expressed optimism that KAUST's research would benefit the world's poorest populations. Why it matters: This visit highlights the potential for partnerships between philanthropic organizations and research institutions in the GCC region to address global challenges in food and water security.
KAUST Professor Salim Al-Babili has received a Phase III grant from the Gates Foundation, bringing the Foundation's total investment in his research on the parasitic weed Striga to over $11 million in less than 10 years. The funding will support Al-Babili's efforts to develop sustainable and affordable solutions to combat Striga, a major threat to global food security that causes $7 billion in annual crop losses. Al-Babili's research focuses on understanding the mechanisms of Striga germination and developing innovative control strategies such as suicidal germination. Why it matters: This continued support from the Gates Foundation underscores the importance of addressing global food security challenges and contributing to sustainable agriculture in arid regions, including Saudi Arabia.
KAUST has received a $1.5 million grant from the Gates Foundation to research methods for eradicating the Striga hermonthica weed, also known as "witchweed". This parasitic plant devastates crops in sub-Saharan Africa by depleting water and nutrients, with the project led by Dr. Salim Al-Babili focusing on pearl millet. The research will involve collaboration with universities in Burkina Faso, Japan, and the Netherlands to identify biological compounds and low-cost methods for Striga control. Why it matters: Addressing Striga infestations is crucial for enhancing food security and supporting the livelihoods of millions of farmers in Africa and the Middle East who rely on crops like pearl millet.
KAUST Associate Professor Salim Al-Babili and his team have been awarded an approximately $5 million grant by the Bill & Melinda Gates Foundation. The grant will support the development of strategies to combat the parasitic purple witchweed (Striga hermonthica), which threatens food security in sub-Saharan Africa. Al-Babili's project will focus on protecting pearl millet production through hormone-based soil cleansing, novel chemistries, and identifying genetic factors for resistance. Why it matters: This grant enables KAUST to contribute significantly to addressing food security challenges in Africa and the Middle East by tackling a pervasive parasitic plant, demonstrating the university's commitment to translating research into real-world impact.
KAUST Professor William McDonough was named one of TIME's 100 most influential climate leaders in business for his "cradle-to-cradle" design approach. McDonough advocates for circular manufacturing and sees carbon as mismanaged rather than inherently negative. He is involved in the KAUST Circular Carbon Initiative, which promotes research, innovation, and startups in circular carbon economies. Why it matters: This recognition highlights KAUST's and the GCC's increasing role in global sustainability initiatives and circular economy research.
Dr. Andrew Bastawrous, CEO/co-founder of Peek, discussed his work on mobile eye clinics at KAUST. He developed Peek Acuity and Peek Retina, which turn smartphones into tools for detecting visual impairment. The technology uses smartphone screens and camera clip-ons to image inside the eye. Why it matters: This low-cost mobile ophthalmic tool has the potential to prevent and treat vision loss in underserved communities.
William Tang from Princeton spoke at KAUST about using deep learning to achieve nuclear fusion. Nuclear fusion, recreating stellar conditions on Earth, is considered the "holy grail" of power sources because it is clean and does not produce radioactive waste. Tokamaks, invented by Soviet physicists, are devices used to contain plasma, the superheated ionized gas required for fusion. Why it matters: KAUST is contributing to research on sustainable energy solutions, including exploring the potential of AI in nuclear fusion, a potentially transformative clean energy source.
KAUST Professor Mootaz Elnozahy has been elected as a Fellow of the National Academy of Inventors (NAI) in recognition of his 38-year career and 58 patents. His work focuses on energy-efficient computer systems, high-performance computing, and resilience. Elnozahy's early work includes building the world's first energy-efficient computer server, which influenced commercial IBM servers. Why it matters: This recognition highlights the growing importance of sustainability in computing and underscores KAUST's contributions to innovative solutions for energy efficiency in the tech sector.