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applications and other emerging technologies. Conduct detailed structural, chemical, and electrochemical characterizations of synthesized hard carbon materials. Analyze material performance using advanced
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on well-identified frames), validated models in operational conditions (New models based on real in-situ observations and mechanism). Microstructure manipulation for tailoring macroscopic response: Toughing
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the world’s most pressing scientific and technological challenges. Located in Saudi Arabia, on the eastern shores of the Red Sea, KAUST provides an award-winning campus to live, work, study and play, and offers
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solvent extraction, membranes, and adsorption, for recycling and purification of selected elements from the cathode materials. System level performance optimization of metal recovery processes. Publish
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electrochemical characterizations of synthesized hard carbon materials. Analyze material performance using advanced techniques such as XRD, SEM, TEM, BET, Raman spectroscopy, and electrochemical testing
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: In-situ testing facilities and characterization techniques (Generation of unique databases on well-identified frames), validated models in operational conditions (New models based on real in-situ
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(Generation of unique databases on well-identified frames), validated models in operational conditions (New models based on real in-situ observations and mechanism). Microstructure manipulation for tailoring
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operational conditions (New models based on real in-situ observations and mechanism). Microstructure manipulation for tailoring macroscopic response: Toughing mechanism using surface on involume spatial
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, AISTATS, CVPR, ICCV, ACL, EMNLP, etc. Our group is embedded in the BESE (Biological and Environmental Science and Engineering) division, which supports and promotes a rich multi-disciplinary work