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The goal of this project is to develop an economical and environmentally sustainable protein-based process for rare earth element (REE) separation from electronic waste (E-waste).

This project seeks to develop an electrochemical path to effectively substitute or reduce chemically intensive recycling methods currently applied for the recovery of cadmium (Cd) and tellurium (Te

This project aims at extracting lithium (li) from the costless brine, produced water, or lithium mining waste solutions, which will help solve the supply chain issue for lithium by unlocking domest

In this project, solvent-driven fractional crystallization (FC) and electrochemical membrane reactor (EMR) technology will be advanced to recover mineral salts, including lanthanides from dilute co

In this project, novel Membrane Solvent Extraction (MSX) technologies will be evaluated based on the previous experience and in-depth understanding of MSX for rare earth element (REE) extraction fr

Graphite is at heart of modern energy technologies, including energy storage devices and energy conversion processes.

This crosscutting project will develop, validate, and exercise computational thermodynamics, microstructure evolution and ab initio methods, and alloy optimization software packages, including thei

The goal for a net-zero carbon emission economy by 2050 requires the rapid maturation and deployment of next-generation energy technologies in less than three decades.

This project aims to gather thermodynamic data and use this information to help other Critical Materials Innovation Hub projects solve processing-related problems.