Dr. Rana Sabouni | Detection | Academic Excellence Award

Dr. Rana Sabouni, American University of Sharjah, United Arab Emirates

Dr. Rana Sabouni is a prominent figure in the field of Chemical Engineering, currently serving as an Associate Professor at the American University of Sharjah (AUS). She holds a Ph.D. and M.Sc. in Chemical and Biochemical Engineering from the University of Western Ontario, and a B.S. in Chemical Engineering and Petroleum Science from the University of United Arab Emirates. Dr. Sabouni’s research focuses on advanced materials, particularly Metal Organic Frameworks (MOFs), with applications in environmental sustainability, drug delivery systems, and CO2 adsorption. She has received numerous accolades, including the Outstanding Interdisciplinary Research Award and various research grants from AUS. Her dedication to innovative solutions in chemical engineering extends into her teaching, where she inspires future engineers through a combination of theory and practical applications.

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Summary of Suitability for the Research for Academic Excellence Award:

Dr. Rana Sabouni, an associate professor in the Chemical Engineering Department at the American University of Sharjah, presents a strong profile for the Research for Academic Excellence Award. She holds a Ph.D. and M.Sc. in Chemical and Biochemical Engineering from the University of Western Ontario and has over a decade of academic experience. Her research focuses on cutting-edge areas such as Metal Organic Frameworks (MOFs), CO2 adsorption processes, drug delivery systems, and environmental pollutant detection. These are not only highly relevant to contemporary global challenges but also contribute significantly to the fields of chemical engineering and interdisciplinary research.

Education

Dr. Rana Sabouni completed her Ph.D. in Chemical and Biochemical Engineering at the University of Western Ontario in 2013. Her doctoral work focused on advanced materials for environmental and biochemical applications, particularly in the areas of Metal Organic Frameworks (MOFs) and CO2 capture. Prior to that, she earned her M.Sc. in Chemical and Biochemical Engineering from the same university in 2009, concentrating on sustainable chemical processes. Dr. Sabouni also holds a B.S. (Hons.) in Chemical Engineering and Petroleum Science from the University of United Arab Emirates, which she completed in 2006. Her comprehensive educational background has provided her with a deep understanding of chemical processes, enabling her to explore innovative solutions for environmental challenges and drug delivery systems.

Experience

Dr. Rana Sabouni has extensive academic experience, currently serving as an Associate Professor at the American University of Sharjah since 2020. She previously held the position of Assistant Professor at the same institution from 2014 to 2020. Before joining AUS, she worked as a Post-doctoral Fellow at the University of Western Ontario, where she focused on environmental sustainability research. She has also contributed as a Research and Teaching Assistant at the University of Western Ontario from 2007 to 2013, where she developed her expertise in chemical and biochemical engineering. Dr. Sabouni’s practical and research experience spans across multiple areas, including CO2 adsorption, environmental applications of MOFs, and the development of anticancer drug delivery systems.

Awards and Honors

Dr. Rana Sabouni has received numerous awards and grants for her research and academic contributions. In 2023-2024, she was honored with the Outstanding Interdisciplinary Research Award for her innovative work in sensing applications. She has also secured several Faculty Research Grants, including funding for projects like developing fluorescence-based biosensing platforms and MOF-based photo-reactors for pollutant removal. Notably, Dr. Sabouni received the Teaching Excellence Award at AUS for the academic year 2019-2020. She has also been recognized with prestigious scholarships, including the Ontario Graduate Scholarship and MITACs Accelerated Graduate Scholarship during her time at the University of Western Ontario. Dr. Sabouni’s accolades reflect her commitment to advancing chemical engineering research and education.

Research Focus

Dr. Rana Sabouni’s research primarily centers on Metal Organic Frameworks (MOFs), with a strong emphasis on their environmental and biomedical applications. Her work on MOFs for CO2 adsorption and micropollutant removal from aqueous solutions addresses critical global environmental challenges. In addition to environmental sustainability, she is deeply involved in developing novel nanocarriers for anticancer drug delivery, exploring the effects of external stimuli such as light, ultrasound, and microwaves on drug release profiles. Dr. Sabouni is also focused on advancing biosensor technologies, specifically in the detection of heavy metals and pollutants. Her research combines chemistry, material science, and engineering to offer innovative solutions in both environmental sustainability and healthcare.

Publication Top Notes

Title: Carbon dioxide capturing technologies: a review focusing on metal organic framework materials (MOFs)
Cited by: 238
Title: A novel combined manufacturing technique for rapid production of IRMOF-1 using ultrasound and microwave energies
Cited by: 161
Title: Anti-cancer drug delivery using metal organic frameworks (MOFs)
Cited by: 115
Title: Micropollutants removal from water using microfiltration membrane modified with ZIF-8 metal organic frameworks (MOFs)
Cited by: 105
Title: Biomedical applications of metal− organic frameworks for disease diagnosis and drug delivery: a review
Cited by: 99

Dr. Cedric Anthierens, COSMER Lab, University of Toulon, France

Cédric Anthierens is an Associate Professor at the University of Toulon, where he heads the mechatronics and robotics department at the Seatech Engineering School. A graduate of INSA of Lyon in 1996, Cédric earned his PhD in microrobotics in 1999. His academic career spans two decades, during which he has focused on research in marine and submarine robotics. At the COSMER Lab, his work includes developing underwater robots, umbilical management systems, and cooperation between autonomous surface and underwater vehicles. Beyond academia, Cédric collaborates with industry leaders like AlcenAlseamar, managing fleets of autonomous gliders to further enhance maritime exploration technologies.

Summary of Suitability for the Research for Business Innovation Award

Cédric Anthierens demonstrates strong qualifications for the Research for Business Innovation Award, with a unique blend of academic research and real-world business innovation. As an Associate Professor at the University of Toulon’s COSMER Lab, his work focuses on marine and submarine robotics, with a specific emphasis on autonomous surface and underwater vehicles. This field of research directly contributes to cutting-edge advancements in marine technology, offering practical applications in industries like defense, ocean exploration, and environmental monitoring.

Education

Cédric Anthierens holds a degree in Engineering from INSA Lyon, a prestigious French engineering school, which he completed in 1996. He pursued further studies in robotics, earning a PhD in microrobotics in 1999. His doctoral research focused on the intricacies of micromechanical systems, laying the foundation for his career in marine robotics. He further honed his expertise through various advanced research programs, specializing in underwater vehicle navigation and autonomous robotics. His academic background, a blend of theoretical and practical experience, has been instrumental in shaping the curriculum at the Seatech Engineering School, where he now leads the mechatronics and robotics department.

Experience

Cédric Anthierens has extensive experience in the field of robotics, particularly in marine and underwater systems. Since joining the University of Toulon in 2014, he has served as the head of the mechatronics and robotics department at Seatech Engineering School. His research focuses on creating autonomous systems for both surface and underwater vehicles, and he has collaborated with leading organizations such as AlcenAlseamar and Sherpa Engineering. Through projects like fleet management of autonomous underwater gliders and advanced algorithms for robotic path planning, he has contributed significantly to the field of marine robotics. His academic and industrial experience positions him as a key figure in advancing underwater robotic technologies.

Awards and Honors

Cédric Anthierens has received numerous accolades for his contributions to marine and robotics research. His work on developing underwater robotic systems has garnered recognition from both academic and industrial organizations. He has been honored for his innovations in autonomous vehicle navigation and path planning, including awards for excellence in innovation. His leadership in managing industry collaborations, particularly with AlcenAlseamar, has also been acknowledged, as he played a pivotal role in advancing the capabilities of autonomous underwater gliders. As an academic leader, Cédric has received institutional awards for his contributions to the Seatech Engineering School, where he has successfully led the mechatronics and robotics department.

Research Focus

Cédric Anthierens’ research primarily revolves around the development of autonomous marine and submarine robotic systems. His focus is on improving the intelligence and effectiveness of glider fleets, advancing algorithms for underwater vehicle navigation, and optimizing robotic path planning. He has worked extensively on cooperative systems between autonomous surface vehicles (USVs) and underwater vehicles (ROVs), particularly addressing umbilical management between these systems. At the COSMER Lab, his research has led to the creation of simulation tools that enhance the planning and execution of underwater missions, enabling robots to perform tasks more efficiently. His collaboration with industrial partners has also contributed to practical advancements in maritime robotics.

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