A KAUST team led by Hossein Fariborzi won second place in the MEMS Design Contest for their "MEMS Resonator for Oscillator, Tunable Filter and Re-Programmable Logic Applications." The device is runtime-reprogrammable, allowing the function of each device in the circuit to be changed during operation. The KAUST team demonstrated that two MEMS resonators could replace over 20 transistors in applications like digital adders, reducing digital circuit complexity. Why it matters: This innovation could significantly reduce power consumption, chip area, and manufacturing costs in microprocessors, advancing the development of energy-efficient microcomputers in the region.
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.
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.
KAUST researchers led by Dr. Muhammad Hussain have developed a flexible, transparent silicon-on-polymer based FinFET inspired by the folded architecture of the human brain's cortex. The team created a 3D FinFET on a flexible platform without compromising integration density or performance. They aim to demonstrate a fully flexible silicon-based computer by the end of the year. Why it matters: This research could lead to the development of ultra-mobile, foldable computers and integrated circuits, advancing the field of flexible electronics in the region.
KAUST Professor Muhammad Mustafa Hussain was elected as an IEEE Fellow for his contributions to flexible and stretchable electronic circuits. Hussain is the principal investigator of the KAUST Futuristic Electronics and Integrated Nanotechnology Lab and the principal ideator of the KAUST FabLab and vFabLab™. His research focuses on transformational electronics, introducing new applications for web-integrated interactive electronics using CMOS-compatible processes. Why it matters: This recognition highlights KAUST's contributions to cutting-edge research in flexible electronics, an area with increasing importance for IoT devices and various applications in robotics, healthcare, and automation.
KAUST alumnus Dr. Hesham Omran won the UNESCO-Al Fozan International Prize for achievements in STEM. Omran was recognized for his Analog Designer’s Toolbox (ADT) and his Mastering Microelectronics YouTube channel, which has over 1.2 million views. Omran aims to boost microelectronics innovation in the Arab world. Why it matters: The award highlights the impact of KAUST graduates on STEM fields in the region and recognizes contributions to education and innovation in microelectronics.
KAUST researchers collaborated with TSMC to review the potential of 2D materials in overcoming silicon limitations for microchips. They find that while 2D materials show promise, performance degrades when using scalable fabrication techniques like chemical vapor deposition. 2D materials have been integrated into some commercial products like sensors, but high-integration-density circuits are still a challenge. Why it matters: This research highlights the ongoing efforts and remaining hurdles in utilizing novel materials to advance semiconductor technology in line with industry roadmaps.
KAUST and KACST co-organized the KSA Future of Semiconductors Forum in Riyadh to explore strategies for developing a semiconductor industry in Saudi Arabia. Participants discussed the critical need to secure the global supply chain for semiconductors, especially with rising demand from AI and other fields. KAUST faculty member Dr. Xiaohang Li noted that local semiconductor researchers and developers can play a key role in diversifying the Saudi economy. Why it matters: Developing a domestic semiconductor industry would support Saudi Arabia's ambitions in AI and other technology sectors while enhancing economic diversification and national security.