KAUST ·
KAUST Associate Professor Muhammad Mustafa Hussain has been elected as a fellow of the American Physical Society (APS). Hussain's research focuses on creating paper-based sensors using low-cost materials to mimic human skin sensory functions. He was selected in recognition of his work at KAUST. Why it matters: Recognition of researchers at GCC universities by international professional societies helps to raise the profile of regional research efforts.
KAUST ·
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 ·
KAUST alumnus Aftab Hussain, now a faculty member at the International Institute of Information Technology in Hyderabad, is working on flexible electronics for wearable devices. His research focuses on overcoming the rigidity of microprocessors and memory circuits by using materials like copper and polyimide. Hussain developed processes for creating stretchable metal spring structures applicable in thermotherapy, with published patents. Why it matters: This work demonstrates KAUST's role in fostering research that addresses key challenges in wearable technology, contributing to advancements in healthcare and micro-robotics.
KAUST ·
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 ·
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 ·
KAUST alumnus Hussain Shibli (M.S. '13) is now the director general at the National Renewable Energy Data Center in King Abdullah City for Atomic and Renewable Energy (KACARE). Shibli obtained a bachelor's degree in electronics and communications engineering from King Abdulaziz University in 2010 before pursuing his master's at KAUST. He sees his position in the energy sector as an opportunity to lead renewable energy development in line with Saudi Vision 2030. Why it matters: This highlights KAUST's role in developing talent for key positions in Saudi Arabia's renewable energy sector, aligning with the Kingdom's strategic goals.
KAUST ·
KAUST doctoral students Xiujuan Zhang and Aftab Hussain, along with Research Scientist Dr. Alberto Casu, will attend the 66th Lindau Nobel Laureate Meeting. The three scientists were selected based on their work at KAUST. Why it matters: This highlights KAUST's commitment to fostering scientific talent and contributing to global research.
KAUST ·
A KAUST team led by Prof. Hussain published a paper in ACS Nano detailing their use of industry-compatible processes to create a flexible transistor with a bending radius of 0.5 mm. The transistor is constructed from a monocrystalline silicon-based substrate and uses a process that does not degrade device performance. The team's approach uses a network of trenches/holes and a back-etch process to create flexible electronics without compromising cost, yield, performance, and efficiency. Why it matters: This research paves the way for high-performance, portable electronics using silicon, a material already widely used in the electronics industry.