Dr. Maguy Abi Jaoude
Dr. maguy abi jaoude Associate Professor Chemistry

Contact Information
maguy.abijaoude@ku.ac.ae +97123124113

Biography

Dr. Maguy Abi Jaoude is currently an Associate Professor of Chemistry at Khalifa University of Science and Technology (KU). She leads a research theme on environmental catalysis at the Center for Catalysis and Separation (CeCaS), since 2022. She also collaborates with the Center for Membranes and Advanced Water Technology (CMAT). Before joining Khalifa University as an Assistant Professor in 2013, she served as an adjunct analytical chemistry instructor at the University of Claude Bernard Lyon 1 – France. 

Dr. Abi Jaoude completed her doctorate through a French CNRS fellowship. She earned her M.Sc. and Ph.D. in Analytical Chemistry from the University of Claude Bernard Lyon 1 – France, in 2008 and 2011, respectively. 

Throughout her academic career, she has served on various program development and University committees, for which she received the 2018 Khalifa University Faculty Service Excellence Award. She is an expert reviewer for internationally renowned chemistry journals and external funding agencies. She is a fellow of the American Chemical Society.

Dr. Abi Jaoude’s current research program focuses on the development of mixed oxide photo(thermal)catalysts and green separation approaches for the advancement of air and water purification technologies, and for the extraction of critical metals from e-waste. Her research interests encompass the use of hydrothermal, sol-gel, and electrospinning processes to design low-dimensional, faceted, or directed metal-oxide structures of transition and rare earth elements. She is also interested in exploring the use of green designer solvents for tailoring the synthesis of photocatalysts and ultrafiltration membranes, and for solving complex metal extraction and recovery processes. 


Education
  • Ph.D., Analytical Chemistry, University of Claude Bernard Lyon 1 (France), 2011
  • M.Sc., Analytical Chemistry, University of Claude Bernard Lyon 1 (France), 2008
  • Teaching Diploma in Sciences, Major in General Chemistry, Lebanese University (Lebanon), 2007

Teaching
  • Analytical Chemistry
  • Analytical Spectroscopy and Separation Methods
  • Materials Chemistry
  • Environmental Chemistry

Affiliated Research Institutes/Centers
  • Center for Catalysis and Separation
  • Petroleum Institute

Research
Research Interests
  • Synthesis and Characterization of Low and Multidimensional Mixed Oxides of Transition and Rare Earth Elements
  • Use of Deep Eutectic Solvents in Materials Synthesis and Separation Technologies
  • Heterogeneous Photo(thermal)catalysis
  • Water and Air Pollution Abatement Using Hybrid Approaches

Research Projects

One-dimensional (1D) nanomaterials have peculiar physico-chemical and optoelectronic properties compared to their bulk counterparts. Many of these properties are essential to the advancement of adsorption and heterogeneous catalysis technologies for environmental applications (e.g., air purification and gas sensing). In this project, we use the electrospinning process to design and produce 1D metal-oxide composite fibers with tailored morphologies and textures. We focus on preparing heterostructures and solid solutions of oxides from transition and rare-earth element systems and intensifying the synthesis methodology for greener synthesis and improved atom economy.

Check out our prior work at: Surface coating and Technology 350 (2018) 245 ; Ceramics International 42 (2016) 10734

In this project, we focus on the design of advanced mixed-oxide photocatalysts, both in bulk and in situ, to tackle the poor visible-light harvesting ability of the traditional TiO2 across the solar spectrum and advance the reactor technology for continuous-flow applications. Using Design of Experiments coupled with extensive material characterization, we aim to unravel intercorrelations among key material properties (such as surface area, crystal and defect structures, semi-conductor bandgaps, and interfacial structure) to understand structure-property-performance relationships. The photocatalysis over bulk materials is examined with a slurry reactor. For continuous flow studies, we focus on intensifying the optical fiber reactor technology. Our photocatalysts are examined for environmental depollution, targeting the removal and abatement of contaminants of emerging concerns in water and the treatment of indoor air pollutants.

Deep Eutectic Solvents (DESs) are a new generation of highly functional solvents with attractive properties for use in green synthetic chemistry. They have a tunable viscosity, polarity, and conductivity. They are also known as designer solvents for their rich and complex intermolecular chemistry. 

In this project we use DESs for the development of sustainable synthesis processes. We have also used these solvents to advance the surface chemistry of phase inversion UF membranes to introduce hybrid separation mechanisms for improved water filtration applications. 

Check out our prior work at: Chemical Engineering Journal 433 (2022) 134596; Separation and Purification Technology 266 (2021) 118585; Chemical Engineering Journal 408 (2021) 128017


Research Staff and Graduate Students:

Staff
Dr. Kaisar Hajam Postdoctoral Fellow
Students
Dina A. Gaber Ph.D. student (current)
Anifat A. Bankole Ph.D. student (current)
Hanan Nasser Al Hassani M.Sc. student (2019-2021)
Mariona Gabande Zapater Visiting M.Sc. student joint with IQS-Barcelona (2019-2020)
Meera Kazim UG Senior research student (2020-2021)
Hessa Al Falasi UG Senior research student (2022-2023)
Heba Ahmad UG Senior research student (2022-2023)
Rama Almasalmeh MSc Applied Chemistry (2023-present)
Tasneem Bayomi MSc Applied Chemistry (2023-present)