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ORNL and INL develop low-cost rare earth extraction technique

CMI research, technology transfer featured in Powder Metallurgy Review

Elucidating the Role of Hydrogen Bond Donor and Acceptor on Solvation in Deep Eutectic Solvents

Deep eutectic solvents comprised of ammonium/phosphonium salts and carboxylic acids have been characterized by inverse gas chromatography to understand their solvation interactions. Solute-solvent interactions are beneficial in understanding the performance of DESs in various chemical separations and catalysis.

Characterizing Olefin Selectivity and Stability of Silver Salts in Ionic Liquids Using Inverse Gas Chromatography

Long-term olefin selectivity offered by silver salt/ionic liquid (IL) mixtures is evaluated by inverse gas chromatography (IGC). The approach enables the separation media to be examined under various environmental conditions (e.g., different temperatures and gas streams) typically encountered when performing olefin separations.

Mechanochemical extraction of lithium at low temperature (MELLT) from chemical-grade domestic α-Spodumenes

CMI researchers at the Ames Laboratory conducted the activity for this highlight

Crystal structure and separation factor in DME-driven fractional crystallization

CMI researchers at Idaho National Laboratory conducted the activity for this highlight

3D Structures of Single Site Catalysts From the Ground Up

A robust method for determining the 3D structures of arbitrary silica-supported molecules is developed.

Using a Chromatographic Pseudophase Model to Elucidate the Mechanism of Olefin Separation by Silver(I) Ions in Ionic Liquids

A three-phase chromatographic model treating silver(I) ions as a pseudophase is constructed and applied to investigate the olefin separation mechanism in silver(I) salt/ionic liquid (IL) mixtures. The partition coefficients and the values for enthalpy, entropy, and free energy of solvation of analytes are determined using the model.