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Professor Demopoulos’ HydroMET research is focusing on sustainable solution processing of inorganic materials spanning from development of clean hydrometallurgical technologies to advanced materials for green energy & environmental applications. Our research centers on aqueous synthesis, crystallization, deposition, and electrochemical evaluation from immobilized hazardous materials to functional nanomaterials such as photocatalysts, Li-ion battery (LIB) electrodes, and nanostructured photovoltaic (PV) films. Our advanced energy materials research shift reflects exciting new opportunities in applying aqueous process engineering expertise to nanostructured functional material processing with potential for large-scale development of sustainable new energy and environmental technologies. These vary from encapsulation of hazardous materials like arsenical waste and nanomaterial-based water decontamination to carbon-free direct production of metals (e.g. iron) by aqueous electrolysis, green synthesis and fabrication of Li-ion battery electrodes and ceramic electrolytes including direct recycling and upcycling of spent LIB cathodes (e.g. NMC, LFP).
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Rana Yekani,Han Wang,Pegah Ghamari,Stephanie Bessette, Jonathan Sharir-Smith,Raynald Gauvin,George P. Demopoulos
JOURNAL OF PHYSICAL CHEMISTRY Cno. 2 (2024): 710-722
Journal of Energy Storage (2024): 112482
PHYSICAL CHEMISTRY CHEMICAL PHYSICSno. 10 (2024): 8366-8379
Next Energy (2024): 100122
RSC Sustainabilityno. 8 (2023): 1932-1951
MATERIALS ADVANCES (2023)
Springer eBookspp.255-258, (2023)
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