Research Inquiries

For inquiries related to SD Mines Research, contact:

Research Affairs

S.D. School of Mines & Technology
501 E. St. Joseph Street
Suite 102, O'Harra Building
Rapid City, SD  57701

(605) 394-2493

Research@Mines

Research@Mines

Research at Mines happens every day of the year, involves faculty and students at every academic level, and frequently includes collaboration across the state, the nation and the globe.
LLSM a 3D Window to the Unknown

The Lattice Light-Sheet Microscope (LLSM) is breakthrough technology that provides high-speed real-time 3D moving images from inside living cells without damaging them. The tool has the potential to push the boundaries of cellular biology and advance breakthroughs in medical science and biotechnology.

SD Mines BuG ReMeDEE Team Lands $6 Million Grant to Study Microbes of the Methane Cycle in Extreme Environments

SD Mines Researchers have been awarded a $6 million NSF grant to study microbes that consume methane in deep and extreme environments. This research will help scientists better understand the climatological impact of methane generated under places like Yellowstone National Park. Researchers will also study how some of these microbes can be used to convert methane into useable products and materials.

Killing Anthrax

Mines researchers pioneer new way to neutralize biological weapons.

High School Students 3D Print Rocket Propellant, Take on Real Science and Engineering Research

Local high school students from Rapid City and Sturgis spent their summer at SD Mines researching and developing 3-D-printed rocket propellant; fusion bonds to make lighter, more fuel-efficient parts for the automotive and aerospace industries; and titanium biomedical implants that combat the body’s rejection of foreign objects.

SD Mines Researchers Play Integral Part in Deep Underground Neutrino Experiment (DUNE) at Sanford Lab

SD Mines researchers are playing an important role in DUNE, which is being built and operated by a group of roughly 1,000 scientists and engineers from 30 countries.

$540,000 NSF Grant Boosts 6-12th Grade STEM Teaching Efficacy

Teachers in South Dakota now have the chance to work side-by-side with faculty at SD Mines and bring what they learn back to the classroom through the Sustainable Development-Research Experience for Teachers (SD-RET) program.

SD Mines Researcher Leads CASPAR At Sanford Underground Lab

Nuclear astrophysicists, led by SD Mines professor Frank Strieder, have successfully created the first low-energy particle accelerator beam at the Sanford Underground Research Facility.

SD Mines Professor Helps Invent New Tool to Better Prevent and Fight Wildfire

State Fire Meteorologist, Darren Clabo, Ph.D., at the South Dakota School of Mines & Technology is helping create the Fire Risk Estimation tool (FiRE)

LLSM a 3D Window to the Unknown

Robert Anderson, Ph.D., with the LLSM

For most of human history, the existence of living cells was a complete mystery. Anton van Leeuwenhoek is credited with being the first person to view single-celled organisms. In 1674, he peered through a handmade microscope and described the algae Spirogyra. The subsequent publication of his work helped form the foundation of microbiology.

The science continued to advance alongside the microscope, but for hundreds of years much of the inner-workings of living cells have remained elusive and unknown. Cells exist in three dimensions, microscopes only produce images in two.   

Today, that's changing thanks to new techniques in optical microscopy, such as the 2014 invention of Lattice Light-Sheet Microscope (LLSM) by Nobel Laureate Eric Betzig, PhD. This breakthrough technique provides high-speed real-time 3D moving images from inside living cells without damaging them. This tool has the potential to push the boundaries of cellular biology and advance breakthroughs in medical science and biotechnology. The LLSM allows researchers to view cellular processes in a way they could not before.

Currently there are only a handful of these microscopes in the world, and one of them is at SD Mines.  

“SD Mines is very proud of many successes of our faculty and students who are working on the frontiers of science and engineering,” says SD Mines Interim President Jan Puszynski.<...

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Last Edited 10/11/2017 04:42:03 PM [Comments (0)]

SD Mines BuG ReMeDEE Team Lands $6 Million Grant to Study Microbes of the Methane Cycle in Extreme Environments

Rajesh Sani, Ph.D., (right) asociate professor and Saurabh Dhiman, Ph.D., research scientist in the Chemical and Biological Engineering Department at SD Mines are two members of the BuG ReMeDEE team.

Researchers at the South Dakota School of Mines & Technology have been awarded a $6 million grant from the National Science Foundation (NSF) to study the range of microbes that consume methane in deep and extreme environments. The project is named Building Genome-to-Phenome Infrastructure for Regulating Methane in Deep and Extreme Environments (BuG ReMeDEE). This research (pronounced “bug remedy”) can help scientists better understand the methane cycle in natural extreme conditions, such as under Yellowstone National Park and in the Sanford Underground Research Facility (SURF). The methane cycle is the generation and consumption of methane by various microbes.  Researchers will also study how some of these microbes can be used to convert methane into useable products and materials. 

Methane is a powerful greenhouse gas. This research will help scientists better understand the climatological impact of methane generated under places like Yellowstone and in other geothermic and fossil fuel beds.

“This BuG ReMeDEE consortium will garner the world’s attention on the significance of analyzing the methane regulation in deep-subsurface and extreme environments,” says Rajesh Sani, Ph.D., associate professor in the Chemical and Biological Engineering Department at SD Mines and the principal investigator of the initiative...

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Last Edited 10/2/2017 03:02:35 PM [Comments (0)]

Killing Anthrax

Lori Groven, PhD, an assistant professor in the chemical and biological engineering department at SD Mines, is pioneering new ways to fight biological weapons.

In the weeks following the September 11th attacks, a series of letters containing anthrax spores arrived at media outlets and the offices of US Senators Tom Daschle and Patrick Leahy. The acts of bioterrorism gripped the nation in confusion, anger, and fear. Scores were hospitalized and five people died. It was a senseless tragedy. But, it could have been much worse.

“Ten grams of anthrax spores could wipe out all of Washington, DC, and the surrounding area,” says Lori Groven, (BS ChE, MS ChE, PhD Nanoscience and Nanoengineering). “Biological weapons are scary for everybody, because it takes so little to do so much damage,” she adds. The minimum lethal dose for anthrax is estimated to be 5-10,000 spores, and one gram of anthrax contains well over a trillion spores. 

Groven is a research scientist and assistant professor in the chemical and biological engineering department at Mines. She and her team are part way through a five-year half-million-dollar grant from the Defense Threat Reduction Agency. The research has led to new materials and methods for combating bioterrorism.

One challenge Groven and her team have faced is the instability of the chemicals currently used to neutralize biological weapons. These compounds, or biocides, are made up mostly of a fuel and oxidizer (iodate) powder. They have a very short shelf life. “This stuff doesn’t age very well," says Groven. “If you put it out on the counter,...

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Last Edited 9/16/2017 08:05:48 PM [Comments (0)]

High School Students 3D Print Rocket Propellant, Take on Real Science and Engineering Research

Local high school students from Rapid City and Sturgis spent their summer at SD Mines researching and developing 3-D-printed rocket propellant; fusion bonds to make lighter, more fuel-efficient parts for the automotive and aerospace industries; and titanium biomedical implants that combat the body’s rejection of foreign objects.

Sponsored by the Army Education Outreach Program, SD Mines hosted the Research and Engineering Apprenticeship (REAP) program, which provides opportunities for high school students to conduct research for five to eight weeks alongside faculty and graduate students.
 
Stevens High School senior Rebecca Watts 3-D printed rocket propellant, looking at the burn characteristics, with the goal of eventually 3-D printing a rocket engine. Watts’ research was co-sponsored by the SD Space Grant Consortium.
 
Ultimately, the team Watts worked with wants to 3-D print any objects using energetic materials, which range from explosives and rocket fuels to gasoline and pyrotechnics. The team included
Watts, Nicholas Ritchie, an industrial engineering sophomore, Sharla Glover, a mechanical engineering senior, Derek Neubert, a chemical engineering graduate student, and Lori Groven, Ph.D., a chemical and biological engineering assistant professor.
 
“I really had no idea how incredible 3-D printing can be, how helpful it can be. I can 3-D print things that are almost impossible to weld or put togethe...

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Last Edited 8/28/2017 02:40:19 PM [Comments (0)]