Abdulilah Mayet | Neuroscience | Excellence in Innovation Award

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

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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

Kaouthar Louati | Neuroscience | Excellence in Research Award

Kaouthar Louati | Neuroscience | Excellence in Research Award

Dr Kaouthar Louati, University of Monastir, Tunisia

Dr. Kaouthar Louati is a distinguished researcher and analytical chemist 🎓🧪 with a doctoral degree in Analytical Chemistry from the University of Monastir, Tunisia 🇹🇳. She has made substantial contributions to pharmaceutical sciences through over 15 high-impact publications 📚, two book contributions 📘, and collaborative projects in Tunisia and the UK 🇬🇧. Her work focuses on toxicoproteomics, redox proteomics, and stability studies of pharmaceuticals 💊. Dr. Louati is affiliated with prestigious institutions including the University of Nottingham, Habib Bourguiba University Hospital, and multiple pharmaceutical laboratories 🏥🔬. Known for her meticulous method validation, drug impurity analysis, and environmental toxicology studies 🌿⚗️, she has emerged as a key figure in analytical method development and toxicological risk assessment. With deep academic commitment and a passion for pharmaceutical innovation 💡, she continues to impact the global scientific community and serves as a role model for women in STEM 👩‍🔬🌍.

Publication Profile

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Education

Dr. Louati’s academic journey is rooted in excellence 🌟. She earned her Doctorate in Analytical Chemistry (2019–2024) 🧪 from the University of Monastir, Tunisia, with very honorable distinction 🎓. Previously, she completed a Master’s in Medicaments’ Research and Development (2009–2010) 🧬 and a Diploma in Doctor of Pharmacy (2008–2009), both with high honors 🏅. Her early academic path included a Diploma in Pharmacy (2002–2007) with a very good grade 🧑‍⚕️ and a Mathematics Baccalaureate (2002) with very honorable mention 🧠➕➖. Throughout her education, she displayed strong scientific aptitude, particularly in pharmaceutical formulation, analytical chemistry, and medical science fundamentals 💉📘. This rich academic foundation positioned her to excel in multidisciplinary pharmaceutical research, bridging clinical applications with laboratory innovation 🧫🔍.

Experience

Dr. Louati has extensive experience in academia, hospitals, and the pharmaceutical industry 🏥🏭. Since 2020, she has served as a Doctor Pharmacist and Associate Researcher at the University of Monastir’s Laboratory of Pharmacology and Drug Development 🔬, and at the Habib Bourguiba University Hospital in both the pharmaceutical and pathological anatomy departments 🧑‍⚕️🧫. She also contributed internationally at the University of Nottingham and Royal Derby Hospital, UK (2020–2023) 🇬🇧. From 2010 to 2015, she worked in UNIMED and PHARMACARE Laboratories, where she developed generic drugs, validated analytical methods, and ensured product compliance with international pharmacopeias 💊📈. Her expertise spans method validation (ICH Q2R1), stress testing, impurity profiling, and regulatory documentation ✍️📑. Her collaborative approach and technical leadership across diverse settings underscore her excellence as both a researcher and pharmaceutical scientist 🌍🧪.

Awards and Honors

Dr. Kaouthar Louati has earned academic distinction throughout her career, including “Very Honorable” mentions for both her doctoral and master’s studies 🏅📘. She was recognized for producing highly cited research and has published over 15 peer-reviewed articles and 2 books in respected international journals and editions 📚🌐. Her contributions to method development, toxicological evaluation, and environmental health have received national and international attention 🧬🌍. Her scientific rigor earned her opportunities to collaborate with global institutions such as the University of Nottingham, reflecting peer recognition and trust in her expertise 🤝🔬. Her work on toxicoproteomics and pharmaceutical impurities has made significant impacts on public health research and regulatory science 🌡️⚗️. Dr. Louati’s continued academic excellence, innovation, and mentorship potential position her as a prime candidate for the Best Researcher Award 🏆🎖️.

Research Focus

Dr. Louati’s research is at the forefront of analytical chemistry, toxicoproteomics, and pharmaceutical sciences 🔍🧪. She focuses on validating and developing robust analytical methods to detect drug impurities, residual solvents, and degradation products, essential for drug stability and safety studies 💊📈. Her work in toxicoproteomics includes assessing oxidative stress and protein damage induced by environmental toxins like pesticides using cutting-edge techniques like Nano-UHPLC-MS/MS and 2D-SDS-PAGE 🌿🧬. She also pioneers method development for anti-epileptic drug monitoring and anabolic steroid detection for doping control 🧠💪. Her integration of redox biology and pharmacological analytics strengthens both environmental health surveillance and clinical pharmacology 🌎🏥. Dr. Louati’s unique blend of expertise bridges fundamental research with real-world applications, significantly contributing to public health, pharmacovigilance, and regulatory standards 🌐📊.

Publication Top Notes

A Shotgun Proteomic-Based Approach with a Q-Exactive Hybrid Quadrupole-Orbitrap High-Resolution Mass Spectrometer for the Assessment of Pesticide Mixture-Induced Neurotoxicity on a 3D-Developed Neurospheroid Model from Human Brain Meningiomas: Identification of Trityl-Post-Translational Modification