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 Associate Professor Aurelien Manchon has been appointed as the Wohlfarth Lecturer for the Magnetism 2020 conference. The conference, organized by IEEE UK Magnetic Chapter and the Institute of Physics, will be held in Sheffield, U.K. Manchon's research at KAUST focuses on spintronics and the development of high-speed, energy-efficient microelectronics. Why it matters: This recognition highlights KAUST's contributions to cutting-edge research in spintronics and magnetism, areas crucial for advancing microelectronics and data storage technologies.
KAUST researchers have designed an integrated circuit logic lock to protect electronic devices from cyberattacks. The protective logic locks are based on spintronics and can be incorporated into electronic chips. The lock uses a magnetic tunnel junction (MTJ) where the keys are stored in tamper-proof memory, ensuring hardware security. Why it matters: This hardware-based security feature could significantly increase confidence in globalized integrated circuit manufacturing, protecting against counterfeiting and malicious modifications.
KAUST Discovery Professor Tao Wu's research focuses on oxide thin films and nanomaterials for applications in spintronics, nonvolatile memory, energy harvesting, and sensors. His group aims to develop oxide thin film heater structures by combining different materials at the unicell level to create new artificial materials. The main technical areas involve spintronics, electric field effect devices, and oxide solar cells, leveraging Saudi Arabia's abundant solar energy. Why it matters: This research could lead to next-generation electronic devices and solar cells using more stable and versatile oxide-based solutions, aligning with Saudi Arabia's renewable energy goals.
KAUST researchers have integrated a hexagonal boron nitride sheet into CMOS microchips, creating a hybrid 2D-CMOS microchip. This integration leverages the electrical and thermal properties of 2D materials, resulting in circuits that are smaller, more energy-efficient, and have longer lifespans. The KAUST Imaging and Characterization Core Lab contributed to the observations in this study, which involved researchers from six countries. Why it matters: This achievement represents a significant advancement in microchip miniaturization and performance, potentially impacting various electronic applications.
Dr. Giampiero Marchegiani from the Quantum Research Center (QRC) co-authored a paper in Nature Nanotechnology on bipolar thermoelectricity in Josephson junctions. The research demonstrates the generation of electrical current using heat, observing bipolar thermoelectricity where the device generates either positive or negative electrical signals without extra control. Integrating these junctions into a bipolar thermoelectric Josephson engine (BTJE) allowed the generation of up to ~140nW/mm2 of electric power at subkelvin temperatures. Why it matters: This BTJE engine may have applications in superconducting technology, potentially strengthening the UAE's position in quantum technologies.
KAUST Professor of Material Science and Engineering, Husam Alshareef, has been named a Fellow of the American Physical Society. Alshareef leads the Functional Nanomaterials & Devices research group at KAUST. The group focuses on developing semiconductor nanomaterials for diverse applications. Why it matters: This recognition highlights KAUST's contribution to advanced materials science and engineering and elevates the university's reputation in the international scientific community.
KAUST researchers have published a review paper in Science magazine covering memristor technology, comparing it to the original transistor. Dr. Mario Lanza is the lead author of the paper, which summarizes data supporting memristor technology readiness across materials and applications. The paper statistically shows the technical criteria for how memristors function in various configurations. Why it matters: Memristors could become the new switching technology standard, surpassing transistors in speed and operational efficiency, especially as current chip technology reaches its quantum limit in terms of size.