Missouri S&T professor receives $875,000 from Rio Tinto for critical minerals research 

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On April 22, 2024

Dr. Lana Alagha conducts research in a Missouri S&T mineral processing laboratory. Photo by Michael Pierce/Missouri S&T.

Dr. Lana Alagha conducts research in a Missouri S&T mineral processing laboratory. Photo by Michael Pierce/Missouri S&T.

A Missouri S&T professor has been awarded $875,000 from Rio Tinto, a global mining group, for a two-year project researching new techniques to recover critical minerals in the waste byproducts that come from extracting and refining copper. 
 
“Our project will test new chemical dissolution strategies and purification techniques to produce pure gallium and germanium compounds from these waste materials,” says Dr. Lana Alagha, a Robert H. Quenon Associate Professor of Mining Engineering. “The new chemicals, or functionalized ionic liquids, we will use were designed specifically for this type of purpose.” 
 
Alagha and one of her former Ph.D. students, Dr. Mostafa Khodakarami, were recently awarded patents for these chemicals, which Alagha says will work well due to their ability to effectively separate specific components from the materials. 
 
Alagha says gallium and germanium are important elements due to their multiple uses with semiconductors, microchips, optics, health care and pharmaceuticals, and other high-tech applications. 
 
The federal government considers both elements to be critical minerals. The Energy Act of 2020 defines critical minerals as non-fuel minerals vital to the nation’s economic or national security. 
 
“There is currently little-to-no production of these two elements in the United States, and we rely to an alarming extent on importing them,” Alagha says. “If successfully implemented, our research could lead to a much stronger domestic supply of these important resources.” 
 
She says recovering gallium and germanium from the wastes created when processing copper is an unconventional approach, but this type of out-of-the-box thinking is necessary for the United States to have a more resilient supply of critical minerals. 
 
Both gallium and germanium are more often recovered as a byproduct of other metal refining process, such as with aluminum, zinc and lead, but Alagha says it should be possible to recover both of the elements with the chemical compounds she will develop to dissolve the waste products and with the new purification techniques she will test after that. 
 
Alagha is a member of S&T’s mining engineering faculty, but she is an expert in the field of chemistry as well, having earned a Ph.D. in materials chemistry from the University of Texas at Dallas. 

She says she looks forward to working directly with Rio Tinto as an industry partner for this project. 
 
“Industry partnerships help bridge the gap between theoretical knowledge and practical application,” she says. “They help facilitate the transfer of knowledge, technologies and innovations from academia to industry and vice versa. Working with Rio Tinto will help take my research in this area to the next level.” 
 
Dr. Saskia Duyvesteyn, Rio Tinto’s chief advisor of research and development, says her organization appreciates having this relationship with S&T. 
 
“Rio Tinto is constantly looking for better ways to extract critical minerals from our byproduct streams,” she says. “After starting production of tellurium in 2022, we are excited to explore new techniques to produce gallium and germanium compounds in partnership with Dr. Alagha and Missouri S&T. Demand for these critical minerals used in high-tech applications is only going to grow, and we are proud to support efforts to increase domestic production.” 
 
Alagha’s co-principal investigators from Missouri S&T for this project are Dr. Michael Moats, chair and professor of materials science and engineering, and Dr. Marek Locmelis, associate professor of geosciences and geological and petroleum engineering at S&T and faculty fellow in research and innovation. 
 
Alagha is also involved in multiple other projects focusing on mineral recovery using unconventional sources. One of her projects with over $700,000 in funding through the Critical Materials Innovation Hub led by Ames National Laboratory also focuses on extracting gallium and germanium, while another $375,000 project funded by the National Renewable Energy Laboratory focuses on recovering tellurium, as well as gold and silver.

About Missouri S&T

Missouri University of Science and Technology (Missouri S&T) is a STEM-focused research university of over 7,000 students located in Rolla, Missouri. Part of the four-campus University of Missouri System, Missouri S&T offers over 100 degrees in 40 areas of study and is among the nation’s top public universities for salary impact, according to the Wall Street Journal. For more information about Missouri S&T, visit www.mst.edu.  


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