Research@Mines - by Subject
Electrical Engineering

South Dakota Mines Creates New Center for Sustainable Solutions

Sadie Tornberg, who is completing her masters in atmospheric and environmental sciences at South Dakota Mines, spent part of her summer in the backcountry of Montana and Idaho studying water quality on the Kootenai River. Research like this is one example of many that fall under the new Center for Sustainable Solutions at Mines.

South Dakota Mines has created a new multidisciplinary Center for Sustainable Solutions. The center will be a hub for research and development around sustainability including water quality, emerging contaminants, agriculture, infrastructure, carbon capture, biofuels, bioplastics, environmental stewardship and more.

“As society faces increasingly complex problems, providing sustainable solutions requires integrative partnerships and approaches that build convergence of many disciplines with research and support for stakeholders at all levels,” says Lisa Kunza, Ph.D., an associate professor in the Department of Chemistry, Biology and Health Sciences and the director of the new center at Mines.

In the last five years leading up to establishing the Center for Sustainable Solutions, there have been nearly 50 faculty and researchers from eight departments on campus participating in the efforts. “As an institution of higher education, it is imperative to have many graduate and undergraduate students trained in the collaborative environment that the Center for Sustainable Solutions provides while tying the innovative efforts to support the needs of the people,” says Kunza.

The center will help serve the needs of a wide range of partners, from assisting the Department of Defense (DoD) in mitigating emerging ...

Read Full Article
Last Edited 8/29/2023 08:57:58 PM [Comments (0)]

Corn Stalks in Space: NASA Next-Gen Battery Breakthrough Fueled by Multidisciplinary Collaboration at South Dakota Mines

Weibing Xing, (second from left) and his research team (from left to right: Gulam Smdani, Weibing Xing, Haiden Studer, Wahid Hasan, Amir Razzaq, Chris Poches and Salman Khan Mithil) in a next-generation battery research laboratory at South Dakota Mines.

South Dakota Mines has received a new $750,000 NASA EPSCoR grant to fund research into the next generation of lithium-sulfur batteries for use in space technology. The grant comes following a breakthrough on campus into a new polymer-biocarbon cathode coating made from corn stalk residues that stabilizes next-generation battery chemistry to nearly double the charging capacity of current technology.

A press release from NASA on this research states, “Improving the power capacity and life of batteries could help NASA power rockets, spacecraft, and habitats on the Moon, and eventually, Mars.”

Shende research team 2023The breakthrough began with the work of Rajesh Shende, Ph.D., on finding new uses for biorefinery waste leftover from the bioproc...

Read Full Article
Last Edited 6/28/2023 08:04:52 PM [Comments (0)]

Mines Physicist Assists in Nanotech Computer Memory Material Breakthrough

Dr. Tula Paudel (left), who assisted in the creation of a ultra-thin memristor that could change how computer memory is stored, stands with his graduate students, Paul White, Bhubnesh Lama, and Khimananda Acharya.

Tula R. Paudel, Ph.D., assistant professor of physics at South Dakota Mines is among the researchers who helped discover new active materials for computer memory. The discovery could lead to increased memory storage in a smaller space at increased computer speeds.

Paudel and the team are working with multiferroic materials that can be electrically and magnetically polarized. Magnets inside a compass are one example of material that can be magnetically polarized; one side of the magnet will always point toward the magnetic north pole. In the 1920s, researchers found that certain materials can change their polarization when an electric current is applied. These materials are called ferroelectric. Both electrical and magnetic polarization co-exists in multiferroic materials.

Ferroelectric materials like magnets contain polarized regions called domains separated by thin walls. An electric field can switch the polarization of these regions and, like a switch, record a direction as one or a zero.

In recent years researchers have begun to study ferroelectricity on smaller and smaller scales. This has led to a focus on the thin boundaries, or domain walls, that separate domains. Paudel and his team found that when they applied electric current to a very thin layer of a ferroelectric Bismuth ferrite, they could move these walls.

The team showed that unlike a RAM on a magnetic disk, which needs continued zaps ...

Read Full Article
Last Edited 8/16/2023 06:43:13 PM [Comments (0)]

Research Inquiries

For inquiries related to South Dakota Mines Research, contact:

Research Affairs

South Dakota Mines
501 E. St. Joseph Street
Vanderboom Laboratory for Entrepreneurial Research (V-LAB)
Rapid City, SD  57701

(605) 394-2493