KAUST Professor of Electrical Engineering, Boon Ooi, has been elected as a Fellow of the Optical Society of America (OSA). Ooi is a professor in the Computer, Electrical and Mathematical Sciences and Engineering Division at KAUST. The fellowship recognizes his contributions to the field of optical engineering. Why it matters: This recognition highlights KAUST's growing prominence in optics and photonics research and boosts its reputation as a leading STEM institution in the Middle East.
KAUST Professor Boon S. Ooi has been named an IEEE Fellow for his contributions to broadband light emitters and visible light communications. Ooi's work in semiconductor photonics has led to the establishment of successful startups. He is among the first to propose energy-efficient lighting and ultra-high-speed visible light communication using semiconductor lasers. Why it matters: Recognition of KAUST faculty demonstrates the institution's growing prominence in advanced technology research and its impact on global innovation.
KAUST held an open day on December 3, 2015, to celebrate the International Year of Light. The event showcased technological developments in light research, especially photonics and LED-based technologies. Exhibits and demonstrations were provided by researchers from KAUST's CEMSE and PSE divisions, under the direction of Professor Boon Ooi. Why it matters: The event promoted understanding of achievements in light research and its applications in various sectors like communications, medicine, and energy.
KAUST Professor Boon Ooi, Nobel laureate Shuji Nakamura, and colleagues are collaborating on laser-based solid state lighting (SSL) and visible light communications (VLC). The team is using gallium nitride (GaN) to develop high-performance semiconductor laser devices, leveraging nanofabrication techniques at KAUST. They demonstrated that their laser-based VLC system is over 20 times faster than LED-based Li-Fi systems. Why it matters: This research could enable faster, more energy-efficient data transmission using visible light, with potential applications in both terrestrial and underwater communication.
KAUST researchers have developed an artificial electronic retina mimicking the behavior of rod retina cells, utilizing a hybrid perovskite material (MAPbBr3) embedded in PVDF-TrFE-CEF. The photoreceptor array, made of metal-insulator-metal capacitors, detects light intensity through changes in electrical capacitance. Connected to a CMOS-sensing circuit and a spiking neural network, the 4x4 array achieved around 70 percent accuracy in recognizing handwritten numbers. Why it matters: This research paves the way for energy-efficient neuromorphic vision sensors and advanced computer vision applications, potentially revolutionizing camera technology.
KAUST researchers in the Sensors Lab are developing neuromorphic circuits for vision sensors, drawing inspiration from the human eye. They created flexible photoreceptors using hybrid perovskite materials, with capacitance tunable by light stimulation, mimicking the human retina. The team collaborates with experts in image characterization and brain pattern recognition to connect the 'eye' to the 'brain' for object identification. Why it matters: This biomimetic approach promises advancements in AI, machine learning, and smart city development within the region.
KAUST Professor of Electrical Engineering Boon S. Ooi has been elected as a Fellow of the U.S. National Academy of Inventors (NAI). This honor recognizes Ooi's contributions to semiconductor photonics, optical sensors, and particularly his work on fiber sensors for oil & gas and agriculture. Ooi's inventions are relevant to communications, health, energy and agriculture. Why it matters: This recognition highlights KAUST's and the region's increasing contributions to impactful research and innovation in areas like optical sensing and semiconductor photonics.
Communications Physics journal has a focus collection on space quantum communications. The collection covers supporting technologies, new quantum protocols, inter-satellite QKD, constellations of satellites, and quantum inspired technologies and protocols for space based communication. Contributions are welcome from October 20, 2020 to April 30, 2021, and accepted papers are published on a rolling basis. Why it matters: Space-based quantum communication is a critical area for developing secure, global quantum networks, and this collection could highlight relevant research for the GCC region as it invests in advanced technologies.