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AIChE Chicago - November 2023 Meeting

When: December 7, 2023

5:00 PM-8:30 PM

Where: Stonewood Ale House

601 Mall Dr

Schaumburg, IL 60173





Speaker: Dr. Hakim Iddir

Physicist, Argonne National Laboratory



Topic: Atomistic modeling of battery materials



Speaker Biography:

Dr. Hakim Iddir is a Physicist in the 91���˶���Ƶ Sciences and Engineering Division at Argonne National Laboratory (ANL). 

Dr. Iddir holds a Ph.D. in Physics from the University of Illinois at Chicago, a Master of 91���˶���Ƶ Engineering from the Illinois Institute of Technology in Chicago. Dr. Iddir joined Argonne National Laboratory in 2006. 

His research interests are in the area of materials science, with a focus on developing experimental and theoretical approaches for investigating structure-property relationships at the atomic scale, defects, surfaces, interfaces in materials, chemical and physical properties of catalytic, non-catalytic and energy materials. His approach involves the use of ab-initio thermodynamics and materials modeling tools along with of electron microscopy and spectroscopy techniques. 

Dr. Iddir published several scientific papers and patents, and serves as a reviewer for several scientific journals, the National Science Foundation, and the Vehicle Technologies Office of the Department of Energy. 

 

Presentation Abstract:

Cathode materials with improved energy densities, longer cycle-life, and improved safety characteristics are needed for portable electronic devices, smart grid systems, and transportation technologies. The highest energy-density cathode materials are based on transition metal oxides, such as layered LiMO2 (M = Co, Ni, Mn), and lithium and manganese-rich composite layered transition metal oxide (LMR-NMC) materials. These cathode materials can address some of the challenges associated with next-generation energy storage devices. However, sufficient knowledge on the atomic scale structure, local environment, and processes governing these metrics in working cells is still lacking. 

Herein, I will present few examples of current interest to the Li-ion battery research community using density functional theory to provide few insights on select structure-property relationships, such as particle morphology, elemental segregation, surface reconstruction, cathode-electrolyte interaction, bulk stability, and Li transport (anode-fast charge). 

Meeting Agenda:

5:00 to 6:00 PM - Networking and Social hour

6:00 to 7:00 PM - Dinner

7:00 to 7:15 PM - Section Announcements

7:15 to 8:30 PM - Presentation and Q&A

AICHE Chicago Section