Canadian inventor Ann Makosinski spoke at KAUST about innovation and problem-solving during the Enrichment in the Fall keynote lecture. She addressed the KAUST community, sharing insights on STEAM (Science, Technology, Engineering, Arts, and Mathematics). The event was attended by KAUST leadership, including the Enrichment Chair and Vice President for Academic Affairs. Why it matters: Such events foster a culture of innovation and interdisciplinary collaboration within Saudi Arabia's leading STEM university.
KAUST Professor Boon Ooi, Nobel laureate Shuji Nakamura from UCSB, and KACST researchers are collaborating on laser-based solid-state lighting (SSL) through a 2014 tripartite agreement. Their research focuses on SSL, which has the potential to be even more energy-efficient than existing LED lighting by using semiconductor lasers. Nakamura, who won the Nobel Prize in Physics in 2014 for developing blue LEDs, spoke at KAUST about the potential of SSL to improve energy efficiency further. Why it matters: This collaboration aims to advance energy-efficient lighting technologies, leveraging Nobel-winning expertise to develop solutions that could significantly reduce global energy consumption.
KAUST Professor Derya Baran and her team at startup iyris have developed transparent solar panels that can turn windows into a source of renewable energy. The technology allows buildings to generate their own electricity, aligning with Saudi Vision 2030's goals for sustainable energy. iyris' first customer is the Red Sea Farm, another KAUST-based business, which aims to use the windows to improve plant growth and crop yield. Why it matters: This innovation could significantly reduce reliance on fossil fuels and promote sustainable urban development in the region, where cooling demands drive high electricity consumption.
Researchers from KAUST trained members of the Moving Windmills non-profit on green energy infrastructure. The training program included hands-on experience for installing solar photovoltaic systems for use in Malawi, such as solar water pumps and rooftop solar on school buildings. Moving Windmills will use this knowledge to coordinate energy projects across Malawi. Why it matters: This initiative highlights KAUST's commitment to supporting sustainable development in Africa by sharing technical expertise and resources.
KAUST Assistant Professor of Material Science and Engineering, Derya Baran, was named as one of MIT Technology Review's 'Innovators Under 35 in the MENA region' in 2018. Baran and her team founded iyris, a startup developing transparent photovoltaic technology to turn windows into solar panels. The technology aims to enable energy-efficient buildings by generating electricity and blocking heat. Why it matters: This recognition highlights KAUST's role in fostering innovation in sustainable energy and showcases the potential of advanced materials research for addressing regional environmental challenges.
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.
KAUST Professor Muhammad Mustafa Hussain is working to democratize electronics and make advanced technology accessible. His research focuses on creating flexible, stretchable, and reconfigurable electronics that are cost-effective and easy to use. Hussain also teaches a course at KAUST where students develop electronics solutions to everyday problems. Why it matters: This initiative could empower individuals globally by providing access to affordable and user-friendly electronic devices for various applications.
Researchers from KAUST and University of Toronto have created a two-sided perovskite/silicon tandem solar cell that exceeds the performance limits for tandem configurations. The bifacial design captures both direct sunlight and light reflected from the ground (albedo). Outdoor testing demonstrated efficiencies beyond commercial silicon solar panels. Why it matters: This innovation promises ultra-high power generation at affordable costs, potentially revolutionizing the photovoltaics market in the region and globally.