CMI Project 4.1.16: Crosscutting thermodynamic properties of critical materials Research Highlights

Accurate model describes rare earths in aqueous solutions

CMI researchers from OLI Systems, Rutgers University and Arizona State University conducted the research for this highlight.

diagram of a mixed-solvent electrolyte (MSE) model for phase equilibrium

Bioleaching of critical materials from LIB optimized with modeling

CMI researchers at Idaho National Laboratory, OLI Systems and University of Arizona lead the activity for this highlight with researchers at Rutgers University and Purdue University

image of contour plot shows results grouped in gray and green

Energetics of anion excess Ca1−xRExF2+x (RE = La, Pr & Nd) solid solutions

CMI researchers at Arizona State University conducted the research for this highlight

Summary of thermodynamics of cobalt compounds

CMI researchers at Arizona State University conducted the research for this highlight

pie chart shows Summary of known thermodynamics of naturally occurring cobalt-bearing phases (i.e., cobalt minerals).

CMI-trained researcher transitions from ASU to ORNL

CMI researchers at Arizona State University and Oak Ridge National Laboratory conducted the activity for this highlight

Heat capacity measurements on layered double hydroxides explores factors controlling materials stability

CMI researchers at Arizona State University, Oak Ridge National Laboratory, and Brigham Young University conducted the research for this highlight

S°298.15 (J·K-1·mol-1) vs moles of water in the doped and undoped [Li-Al-Cl] LDHs