KAUST and the Italian Institute of Technology (IIT) have signed an agreement to collaborate on research in life sciences, AI, robotics, rehabilitation technologies, and nanotechnologies. The partnership will involve joint research projects, academic exchanges, and scientific events. KAUST aims to accelerate innovation and address global challenges by integrating advanced technology and scientific expertise with IIT. Why it matters: This collaboration strengthens KAUST's international research network and supports the development of advanced technologies with potential benefits for Saudi Arabia and the global community.
KAUST alumnus Dr. Abdulilah Mayet was named a Fulbright fellow and will pursue nanotechnology work at UC Irvine from September 2023 to June 2024. Mayet, who earned his master's and Ph.D. from KAUST, is now an associate professor at King Khalid University and has started several companies. He aims to develop new NEMS technologies at Irvine with lower cost and higher performance, with plans to start a company for commercial production. Why it matters: This fellowship highlights the impact of KAUST in fostering research and innovation and building international collaborations in nanotechnology, contributing to the growth of advanced technology sectors in Saudi Arabia.
KAUST Professor Husam N. Alshareef has been elected as a Fellow of the National Academy of Inventors (NAI). Alshareef, principal investigator of the KAUST Functional Nanomaterials & Devices Laboratory, was selected for his prolific innovation and tangible impact on quality of life, economic development, and welfare of society. Alshareef has authored nearly 520 publications and holds 80 issued patents, with his research focusing on nanoscale materials for electronics and energy applications. Why it matters: This recognition highlights KAUST's contribution to innovation and its researchers' impact on critical technology areas, enhancing the university's international standing and supporting Saudi Arabia's technology leadership goals.
KAUST's nanoscience and nanotechnology program was ranked 18th globally in the 2022 US News & World Report's Best Global Universities list. The ranking reflects KAUST's strong performance in basic and applied research at the micro and nano levels, spanning disciplines from chemistry to medical science. KAUST scored 81.7 out of 100, with high scores in citations, normalized citation impact, and international collaboration. Why it matters: This ranking highlights the growing prominence of Middle Eastern universities in advanced scientific fields and KAUST's contributions to global nanoscience research.
KAUST Professor Yu Han has received the Humboldt Research Award for his work in nanostructured materials and electron microscopy. The award sponsors a research project in Germany in collaboration with experts at a German institution; Han was nominated by Dr. Stefan Kaskel at Technische Universität Dresden (TU Dresden). Han will visit TU Dresden to explore collaborations in nanoporous materials and electron microscopy, expanding on an existing project imaging flexible metal-organic frameworks. Why it matters: The award recognizes KAUST's contributions to advanced materials research and facilitates international collaboration in a key area for catalysis and separation technologies.
KAUST researchers led by Andrea Fratalocchi are developing a nanomaterial, initially recognized as the "blackest black" by Guinness World Records, to enhance solar cell efficiency. The material, made from gold nanoparticles, absorbs over 99% of visible light and 98% of infrared. The team is working to create the material from less costly alternatives to gold for energy production applications. Why it matters: This research could lead to significant advancements in solar energy harvesting, addressing a critical need for efficient light absorption in renewable energy technologies within the region and globally.
KAUST Ph.D. student Amira Alazmi won the Nanoscale poster prize at the Royal Society of Chemistry Symposium 2018 in London for her work on cobalt ferrite/reduced graphene oxide composites as a T2 contrast agent for magnetic resonance imaging. Her research focuses on understanding the synthesis of graphite oxide and reduced graphene oxide. Alazmi's work demonstrates the importance of selecting graphene oxide synthesis methods based on the intended application. Why it matters: This award recognizes the high-impact research being conducted at KAUST and highlights the importance of materials science in advancing medical imaging technologies.
KAUST Professor Hussain was awarded the Outstanding Young Texas Ex Award (OYTEX) by the University of Texas (UT). Hussain studied at UT from 2003-2005 and later founded KAUST's Integrated Nanotechnology Laboratory in 2009. His work includes 15 patents, 18 research awards, and recognition from Intel and Samsung. Why it matters: The award recognizes the impact of KAUST faculty and their contributions to nanotechnology research, highlighting KAUST's growing prominence in the field.
KAUST hosted the Second International Spin-Orbit Torque Workshop, gathering spintronics scientists to discuss advancements in controlling magnetism in nanodevices. The workshop featured talks by pioneers in the field and discussions on new results, including the electrical manipulation of an antiferromagnet and the observation of room-temperature skyrmions. The workshop's format encouraged interactions and identified new research directions. Why it matters: This event highlights KAUST's role in fostering international collaboration and driving innovation in advanced materials and nanotechnology, crucial for next-generation memory and data storage solutions.
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.
KAUST researchers, in collaboration with Nanyang Technological University, have discovered a unique chiral structure in gold nanowires. The nanowires exhibit a Boerdijk-Coxeter-Bernal (BCB) helix structure, achieved through a seed-mediated substrate growth method, reaching a minimum diameter of 3 nanometers. High-resolution transmission electron microscopy (HRTEM) at KAUST was crucial in revealing the structure. Why it matters: This breakthrough in chiral metallic nanowire production could lead to advancements in chemical separation, sensing, and catalysis due to the unique properties of chiral crystals.
KAUST has acquired a BM Pro plasma-enhanced chemical vapor deposition (PE-CVD) reactor from AIXTRON for wafer-scale deposition of graphene and carbon nanotubes. The reactor, capable of handling up to 4-inch substrates, will be used by Professor Pedro Da Costa's research team initially, before being opened up to other researchers at KAUST. AIXTRON's VP highlighted the system's uniformity, scalability, rapid heating, and plasma-based processing for growing graphene and nanotubes. Why it matters: This advanced tool enhances KAUST's research capabilities in carbon nanostructures, positioning the university as a leading center for materials science and nanotechnology research in the region.
KAUST Ph.D. student Amal Mohammed Alamri was a finalist in the July 2018 IEEE nanoArt Competition, part of the 18th IEEE International Conference on Nanotechnology in Cork, Ireland. Her work, displayed at University College Cork and Crawford/CIT Gallery, involved stacking n-type MoS2 single crystal with p-type perovskite CH3NH3PbBr3 single crystal. Alamri's IEEE Nano paper entitled "Photonic Single Crystal Heterostructures based on Perovskites/Molybdenum disulfide" was also presented at the conference. Why it matters: This highlights KAUST's contribution to nanotechnology research and its students' participation in international scientific events.
In November 2017, students from KFUPM's Electrical Engineering department visited KAUST's Nanofabrication Core Lab (NCL). The students toured the campus and the KAUST Core Labs facilities and were shown processing equipment in the NCL cleanroom. Demonstrations on micro and nanofabrication techniques were also conducted. Why it matters: While dated, the article highlights the importance of collaboration and knowledge sharing between Saudi universities in developing future researchers in nanotechnology.