Parans Paranthaman Corporate Fellow, Chemical Sciences Division, Nanomaterials Chemistry Group Contact 865.574.5045 | PARANTHAMANM@ORNL.GOV All Publications A Novel Electrolyte Salt Additive for Lithium Ion Batteries with Voltages Greater Than 4.7 V... Big Area Additive Manufacturing of High Performance Bonded NdFeB Magnets Towards low-carbon low-energy concrete alternatives: Life cycle assessment of carbonated cementitious material-based precast ... Material extrusion with integrated compression molding of NdFeB/SmFeN nylon bonded magnets using small- and large-scale pellet-based 3D-printers Enhancement of the electrochemical performance of LiFePO4 cathode material by nanosecond laser annealing Extrusion compression molded critical rare earth free bonded permanent magnets... An Additively Manufactured Fe-3Si Stator for a High-Performance Electrical Motor An overview of various critical aspects of low-cobalt/cobalt-free Li-ion battery cathodes Impact of Anions and Water Content on [Li–Al] Layered Double-Hydroxide Stability Novel Q-Carbon Anodes for Sodium-Ion Batteries... A New Triketone Ligand for Extraction of Lithium from Brines... Demonstrating the β-Ga2O3 Schottky diodes for alpha radiation detection Sintering-based Metal Additive Manufacturing Methods for Magnetic Materials Slug-flow synthesis of NCMA: Effect of substitution of cobalt with aluminum on the electrochemical performance of Ni-rich cathode for lithium-ion battery Direct recycling of spent nickel-rich cathodes in reciprocal ternary molten salts Quaternary ammonium salt coated air filter for bioaerosol removal from building indoor air Bi-modal particle size distribution for high energy product hybrid Nd–Fe–B—Sm–Fe–N bonded magnets Effects of magnetic field annealing on the hard magnetic properties of milled Nd-Fe-B powders Effect of Anions on the Delithiation of [Li–Al] Layered Double Hydroxides: Thermodynamic Insights... Integrated Circular Economy Model System for Direct Lithium Extraction: From Minerals to Batteries Utilizing Aluminum Hydroxi... Integrated Circular Economy Model System for Direct Lithium Extraction: From Minerals to Batteries Utilizing Aluminum Hydroxide Separation of Lithium from Aluminum-Containing Clay Mineral Leachate Solution Using Energy-Efficient Membrane Solvent Extraction In Situ Ion-Exchange Metathesis Induced Conformal LiF Surface Films on Cathode (NMC811) as a Cathode Electrolyte Interphase 3-D Printed Electro-Magnetic Objects for THz Communications Traction motor design trade-offs with additively manufactured anisotropic bonded magnets Pagination Current page 1 Page 2 Page 3 … Next page ›› Last page Last » Key Links Curriculum Vitae Google Scholar ORCID Organizations Physical Sciences Directorate Chemical Sciences Division Separations and Polymer Chemistry Section Nanomaterials Chemistry Group
News Chemists invent a more efficient way to extract lithium from mining sites, oil fields, used batteries
Research Highlight A Robust Cathode Electrolyte Interphase (CEI) has been Formed Through Surface Engineering