Abdulilah Mayet | Neuroscience | Excellence in Innovation Award

Faculty at King Khalid University, Saudi Arabia

Prof. Abdulilah Mohammad Mayet is a distinguished Associate Professor of Electrical Engineering at King Khalid University, Saudi Arabia, with over 25 years of experience spanning academia, industry, and innovation. An alumnus of KAUST and KFUPM, he is a trailblazer in MEMS/NEMS devices, semiconductor fabrication, and AI-integrated sensor systems. As CTO and co-founder of commercial semiconductor ventures, and a Fulbright Scholar and visiting professor at UC Irvine, Dr. Mayet bridges cutting-edge research with real-world impact. He is a prolific inventor with multiple US patents and over 35 scholarly publications. His pioneering work in amorphous WNx metals, transient electronics, and nanoscale switching systems has pushed boundaries in sustainable and ultra-low-power electronics. An active member of leadership and innovation programs like MiSK 2030 and the Saudi Leadership Society, he is committed to transforming ideas into scalable innovations with national and global relevance.

Publication Profile

Orcid

Education

Dr. Mayet holds a Ph.D. in Electrical Engineering from King Abdullah University of Science and Technology (KAUST), completed in April 2016. His doctoral work focused on advanced NEMS switches using amorphous materials, culminating in innovations in transient electronics. He also earned an M.Sc. in Electrical Engineering from KAUST in 2011, where he began developing high-end microelectronic systems. His foundational training began with a B.Sc. in Electrical and Electronics Engineering from King Fahd University of Petroleum and Minerals (KFUPM), Dhahran, in June 1991. Dr. Mayet has further enriched his academic profile through prestigious executive programs in innovation and leadership from institutions such as MIT, Esade Business School, and Cornell University. These programs equipped him with deep interdisciplinary knowledge, allowing him to integrate business acumen with high-level research and technology transfer, particularly in nanofabrication, MEMS/NEMS, and AI-driven system design.

Experience

Prof. Mayet’s career spans academia, industry, and global research. He currently serves as Associate Professor of Electrical Engineering at King Khalid University, where he leads research in nanofabrication, teaches AI-integrated FPGA systems, and directs the college’s research center. He is also the CEO of Qimam Abha Company and a founding member of the Saudi Leadership Society. Notably, he served as CTO at SEMC, overseeing a 4,000 m² commercial nano-fabrication fab. He has held visiting appointments at the University of California, Irvine, and is a Fulbright Scholar. Over three decades, he has collaborated with institutions such as Cornell, Atmel, and KAUST, gaining extensive expertise in MEMS/NEMS, EBL, and semiconductor technologies. He’s also a Regeneron ISEF Grand Awards judge and advisor in national innovation programs like MiSK 2030 Leaders. His global career uniquely blends scientific innovation, technical execution, entrepreneurship, and academic mentorship.

Awards and Honors

Dr. Mayet’s excellence has been recognized through numerous national and international honors. He is a Fulbright Scholar Fellow (2023–2024), a prestigious title awarded to distinguished scholars for international academic exchange. He was selected as a Grand Awards Judge at the Regeneron International Science and Engineering Fair (ISEF) in 2024, honoring his scientific integrity and innovation. He’s also a recipient of more than SAR 26 million in competitive research grants for pioneering work in MEMS/NEMS, AI, and nanotechnology. His leadership in innovation has earned him roles in strategic national programs such as the MiSK 2030 Leaders Program and recognition through multiple invited roles and patents. He holds 8 intellectual properties and is the co-founder and CEO of a university-owned tech company. As a result, his career reflects not just scholarly excellence, but also high-impact leadership in shaping research-to-market ecosystems.

Research Focus

Dr. Mayet’s research lies at the intersection of MEMS/NEMS, nanoelectronics, AI-driven sensor systems, and advanced semiconductor fabrication. He is renowned for fabricating ultra-low voltage NEM switches with unprecedented endurance—over 8 trillion cycles—based on his innovation in amorphous WNx metals. His research has led to breakthroughs in transient electronics, AI-integrated capacitive sensors, and intelligent test compression methods. He’s deeply involved in the commercialization of MEMS devices for medical, industrial, and defense applications. He also actively integrates AI into hardware, using neural networks for flow detection, biosensing, and radiative sensing systems. His focus spans from fundamental material discovery and nanodevice design to applied engineering and real-world deployment. Through his leadership at King Khalid University’s research center and consulting at the Artificial Intelligence Center, he is initiating new fabs for research and commercial use, reinforcing Saudi Arabia’s capacity in high-tech manufacturing and innovation.

Publication Top Notes

Multiphase Flow’s Volume Fractions Intelligent Measurement by a Compound Method Employing Cesium-137, Photon Attenuation Sensor, and Capacitance-Based Sensor

Combination of a Nondestructive Testing Method with Artificial Neural Network for Determining Thickness of Aluminum Sheets Regardless of Alloy’s Type

Application of the Fourier Transform to Improve the Accuracy of Gamma-Based Volume Percentage Detection System Independent of Scale Thickness

An Insight to the Outage Performance of Multi-Hop Mixed RF/FSO/UWOC System

Intelligent Measuring of the Volume Fraction Considering Temperature Changes and Independent Pressure Variations for a Two-Phase Homogeneous Fluid Using an 8-Electrode Sensor and an ANN

Proposing a Method Based on Artificial Neural Network for Predicting Alignment between the Saudi Nursing Workforce and the Gig Framework

An Intelligent Approach to Determine Component Volume Percentages in a Symmetrical Homogeneous Three-Phase Fluid in Scaled Pipe Conditions

David Nwikwe | Biology and Life Sciences | Best Researcher Award

Dr David Nwikwe, Kings University, Nigeria, Nigeria

Dr. David Nwikwe 🎓 is a passionate biochemist specializing in toxicology, pharmacology, and antioxidant research. He earned his Ph.D. (2022), M.Sc. (2016), and B.Sc. (2013) in Biochemistry from the University of Ilorin 🇳🇬. Currently a Lecturer at Kings University and a Volunteer Instructor at the University of the People 🌍, he has published extensively on hepatotoxicity, antimalarial activity, and oxidative stress. Dr. Nwikwe has received multiple excellence awards for research and peer reviewing 🏅. His NGO work focuses on health advocacy, disaster management, and youth development, reflecting his commitment to science and community well-being ❤️.

Academic Excellence

Dr. David Nwikwe holds a Ph.D. in Biochemistry 🎓, distinguished by the prestigious Outstanding Ph.D. Graduate Award 🏆. His academic journey reflects unwavering dedication, progressing from a B.Sc. to a Ph.D. at the University of Ilorin 📚. Driven by a passion for scientific excellence 🔬, Dr. Nwikwe has demonstrated exceptional commitment to research and academic growth 🌱. His achievements highlight not only his intellectual prowess but also his perseverance in the dynamic field of biochemistry ⚗️. With a strong foundation in scientific inquiry and innovation, he continues to inspire future scholars and contribute significantly to biochemical research 🌍.

Teaching and Mentorship

Dr. David Nwikwe is a dedicated academic, serving as a Lecturer at Kings University and an Instructor at the University of the People 🎓. He actively mentors undergraduates, fostering their academic growth while efficiently managing departmental affairs 📚. Dr. Nwikwe’s leadership shines through his pivotal role in coordinating NUC accreditation processes ✅ and supervising various academic activities. His commitment to excellence and mentorship reflects his passion for shaping future scholars 🌟. Through his dynamic roles, he contributes significantly to academic development, inspiring students and colleagues alike 🌍.

Global Impact and Community Engagement

Dr. David Nwikwe is dedicated to making a societal impact beyond academics 🌍📚. His active involvement in NGO projects funded by international bodies like the EU and Global Fund Canada highlights his commitment to global development 🤝🌐. Dr. Nwikwe has contributed to initiatives focused on malaria control 🦟🚫, gender-based issues ⚧️💪, and adolescent health 👩‍⚕️🧑‍⚕️, reflecting a holistic approach to research and community well-being. His work bridges the gap between scientific research and real-world challenges, promoting health, equality, and sustainable development 🌱❤️.

Honors and Awards

Dr. David Nwikwe, a distinguished scholar from the Faculty of Life Sciences, University of Ilorin, received the Award for Outstanding PhD Graduate in 2023 🏆. His leadership journey began early, serving as Class Monitor at Ade-Oshodi Memorial Baptist Primary School (1994-1999) 📚 and later as Senior Prefect and Class Monitor at Okesuna High School, Lagos (1999-2005) 🎓. He won the Best Student Award in the “Spelling Bee” (Zonal Secondary School Category) organized by New Era Foundation in 2005 🐝. David continued his leadership roles as Class Representative during his National Diploma at Kwara State Polytechnic (2007-2009) and M.Sc. Biochemistry program at the University of Ilorin (2014-2016) 🧪.

Research Focus

Dr. David Nwikwe’s research focuses on toxicology, pharmacology, and natural product studies 🧪🌿. His work explores the hepatotoxic effects of drugs like Synriam™ 🏥, the toxicological impact of nanoparticles in water systems 💧⚗️, and the antioxidant and anti-inflammatory properties of plant extracts such as Syzygium aromaticum and Capsicum frutescens 🌱🩺. He also investigates antimalarial activities, oxidative stress reduction, and the modulatory effects of substances like ethanol with Nicotiana tabacum and Cannabis sativa 🧬🧠. His multidisciplinary approach blends in-vivo, in-silico, and molecular docking studies 🔬💻, contributing significantly to biomedical and environmental health sciences 🌍.